CN111746891B

CN111746891B - Automatic device of pasting of jar body label

Info

Publication number: CN111746891B
Application number: CN202010717854.7A
Authority: CN
Inventors: 洪军
Original assignee: Guangdong Ziquan Label Co ltd
Current assignee: Guangdong Ziquan Label Co ltd
Priority date: 2020-07-23
Filing date: 2020-07-23
Publication date: 2024-04-05
Anticipated expiration: 2040-07-23
Also published as: CN111746891A

Abstract

The invention provides an automatic labeling device for a tank body label, which comprises a bottom plate, a first labeling mechanism and a second labeling mechanism, wherein the first labeling mechanism and the second labeling mechanism are fixedly arranged on the top surface of the bottom plate; the first conveyor belt and the second conveyor belt are arranged side by side, and the second conveyor belt is inclined downwards towards one side far away from the first conveyor belt; a pushing structure is arranged on one side of the first conveyor belt, which is far away from the second conveyor belt, and pushes the reversely placed workpieces in the way onto the second conveyor belt; the automatic label sticking device can automatically distinguish and adjust the placing direction of the tank body workpieces, so that the tank body workpieces can be accurately labeled, the processing efficiency is effectively improved, and the production cost is reduced.

Description

Automatic device of pasting of jar body label

Technical Field

The invention relates to the field of label pasting equipment, in particular to an automatic pasting device for a tank label.

Background

The self-adhesive label is also called self-adhesive label, timely paste, instant paste, pressure-sensitive paper and the like, and is a composite material with paper, film or special material as a fabric, adhesive coated on the back surface and silicon-coated base paper as protective paper, and the main purpose of the self-adhesive label is to transmit product information to an observer through patterns and characters printed on the surface.

At present, most of labeling of tank products is carried out by conveying a machined part through a conveying structure, and then pasting is carried out at a certain position of a conveying belt through a pasting machine; however, in order to accurately paste the label on the workpiece, the position of the workpiece needs to be manually adjusted, and the production efficiency is low; if the placement is wrong, the sticking needs to be torn off and then the sticking is carried out again, more resources are consumed, and the production cost is increased.

Disclosure of Invention

In order to overcome the defects of the prior art, the technical problem to be solved by the invention is to provide the automatic labeling device for the tank body, which has novel structure and can automatically distinguish and adjust the placing direction of the tank body workpieces, thereby accurately labeling the tank body workpieces, effectively improving the processing efficiency and reducing the production cost.

To achieve the purpose, the invention adopts the following technical scheme:

the invention provides an automatic labeling device for a tank body label, which comprises a bottom plate, a first labeling mechanism and a second labeling mechanism, wherein the first labeling mechanism and the second labeling mechanism are fixedly arranged on the top surface of the bottom plate, the first labeling mechanism is used for labeling a workpiece placed in a forward direction, and the second labeling mechanism is used for labeling a workpiece placed in a reverse direction; the first pasting mechanism comprises a first conveying belt and a first label pasting machine, and the first label pasting machine is arranged at the downstream section of the first conveying belt through a bracket; the second pasting mechanism comprises a second conveying belt and a second label pasting machine, and the second label pasting machine is arranged at the downstream section of the second conveying belt through a bracket; the first conveyor belt and the second conveyor belt are arranged side by side, and the second conveyor belt is inclined downwards towards one side far away from the first conveyor belt; the first baffle is all installed to the both sides of first conveyer belt, the second baffle is all installed to the both sides of second conveyer belt, first conveyer belt is kept away from one side of second conveyer belt is equipped with push structure, two first baffle corresponds push structure has seted up first breach, is close to first conveyer belt one side set up the second breach on the second baffle, the second breach with first breach position is corresponding, push structure will the reverse work piece propelling movement of putting of route extremely on the second conveyer belt.

In the preferred technical scheme of the invention, a plurality of first baffle plates are fixedly arranged on the surface of the first conveyor belt, and the first baffle plates are distributed in a linear array along the extending direction of the first conveyor belt; a plurality of second baffle plates are fixedly arranged on the surface of the second conveyor belt, and the second baffle plates are distributed in a linear array along the extending direction of the second conveyor belt; the distance between any two adjacent first baffle plates is equal to the distance between any two adjacent second baffle plates.

In a preferred technical scheme of the invention, the pushing structure comprises a first hydraulic cylinder, wherein the first hydraulic cylinder is fixed on the bottom plate through a bracket, a first push plate is fixedly arranged at the end part of a piston rod of the first hydraulic cylinder, and the width of the first push plate is smaller than the interval between two first baffle plates; the first pushing plate is provided with a first infrared sensor, and the probe of the first infrared sensor faces the direction of the first conveying belt and penetrates to the surface of the first pushing plate.

In a preferred technical scheme of the invention, a second infrared sensor is arranged on the second baffle far away from the first conveyor belt, the second infrared sensor is arranged corresponding to the second notch, and the probe penetrates to the surface of the second baffle.

In a preferred technical scheme of the invention, a pushing mechanism is arranged on one side, close to the second pasting mechanism, of the first pasting mechanism, and the pushing mechanism is positioned between the first label pasting machine and the pushing structure; the pushing mechanism comprises a second hydraulic cylinder, the second hydraulic cylinder is fixed on the bottom plate through a bracket, a second pushing plate is fixedly arranged at the end part of a piston rod of the second hydraulic cylinder, a first baffle corresponds to the second pushing plate and is provided with a third notch, a third infrared sensor is mounted on the second pushing plate, and the third infrared sensor penetrates to the surface of the second pushing plate.

In the preferred technical scheme of the invention, a material guide plate is arranged between the first notch and the second notch, the material guide plate is fixed on the top surface of the bottom plate through a bracket, and barrier strips are fixedly arranged on two sides of the material guide plate; and the width of one side of the material guide plate, which is close to the first conveying belt, is larger than the width of the other side of the material guide plate.

In the preferred technical scheme of the invention, the second label pasting machine pastes the part of the workpiece close to the lower inclined side of the second conveying belt; the first label pasting machine pastes the part of the machined part far away from one side of the second conveying belt.

In the preferred technical scheme of the invention, a vibrating motor is arranged at the bottom of the bracket of the second conveying belt.

The beneficial effects of the invention are as follows:

the invention provides an automatic can label pasting device, which is novel in structure, and can be used for pasting labels on two different can products by arranging a first pasting mechanism and a second pasting mechanism; the first pasting mechanism is provided with a first conveying belt, a first label pasting machine and a pushing structure, the first conveying belt drives the tank body to move, when the first pasting mechanism passes through the pushing structure, the placement direction of the tank body is judged by detecting the end face distance of the tank body, if the tank body is placed correctly, the first conveying belt is continuously moved, and the label is pasted at the first pasting machine; if the tank body is placed reversely, starting a pushing structure, and pushing the tank body to the second pasting mechanism, so that the tank body placement direction is distinguished; the second pasting mechanism comprises a second conveying belt and a second label pasting machine, the second conveying belt is arranged in a downward inclined mode towards one side far away from the first conveying belt, so that the tank body pushed to the second conveying belt is propped against the second baffle plate to move, adjustment of the tank body is completed, and label pasting at a preset position is completed by matching with the second label pasting machine; the whole matching can automatically distinguish and adjust the placing direction of the tank body workpieces, so that the tank body workpieces can be accurately labeled, the processing efficiency is effectively improved, and the production cost is reduced.

Drawings

Fig. 1 is a front view of an automatic can label applying apparatus according to an embodiment of the present invention;

fig. 2 is a top view of an automatic can label attachment apparatus according to an embodiment of the present invention.

In the figure:

100. a bottom plate; 200. a first adhering mechanism; 210. a first conveyor belt; 211. a first baffle; 220. a first label applicator; 230. a first baffle; 240. a first notch; 250. a third notch; 300. a second attaching mechanism; 310. a second conveyor belt; 311. a second baffle; 320. a second label applicator; 330. a second baffle; 340. a second notch; 350. a second infrared sensor; 400. a pushing structure; 410. a first hydraulic cylinder; 420. a first push plate; 430. a first infrared sensor; 500. a pushing mechanism; 510. a second hydraulic cylinder; 520. a second push plate; 530. a third infrared sensor; 600. a material guide plate; 610. a barrier strip; 700. a vibration motor.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, an automatic can label sticking device is disclosed in an embodiment of the present invention, and includes a base plate 100, a first sticking mechanism 200 and a second sticking mechanism 300 fixedly installed on the top surface of the base plate 100, where the first sticking mechanism 200 is used for sticking labels to workpieces placed in a forward direction, and the second sticking mechanism 300 is used for sticking labels to workpieces placed in a reverse direction; the first attaching mechanism 200 includes a first conveyor belt 210 and a first label applicator 220, and the first label applicator 220 is mounted on a downstream section of the first conveyor belt 210 by a bracket; the second attaching mechanism 300 includes a second conveyor 310 and a second label applicator 320, and the second label applicator 320 is mounted on a downstream section of the second conveyor 310 by a bracket; the first conveyor belt 210 and the second conveyor belt 310 are arranged side by side, and the second conveyor belt 310 is inclined downward toward a side away from the first conveyor belt 210; the first baffle 230 is installed on both sides of the first conveyor belt 210, the second baffle 330 is installed on both sides of the second conveyor belt 310, a pushing structure 400 is arranged on one side, away from the second conveyor belt 310, of the first conveyor belt 210, a first gap 240 is formed in the first baffle 230 corresponding to the pushing structure 400, a second gap 340 is formed in the second baffle 330, close to one side of the first conveyor belt 210, the second gap 340 corresponds to the first gap 240 in position, and the pushing structure 400 pushes reverse placing workpieces in a path onto the second conveyor belt 310.

The automatic can label pasting device has novel structure, and the first pasting mechanism 200 and the second pasting mechanism 300 can respectively paste labels on two different can products; the first pasting mechanism 200 is provided with a first conveying belt 210, a first label pasting machine 220 and a pushing structure 400, the first conveying belt 210 drives the can body to move, when the first pasting mechanism 400 passes through the pushing structure 400, the placement direction of the can body is judged by detecting the end face distance of the can body, if the can body is placed correctly, the first pasting mechanism continues to move along with the first conveying belt 210, and labels can be pasted at the first pasting machine 220; if the can body is placed reversely, the pushing structure 400 is started to push the can body to the second pasting mechanism 300, so that the can body placing direction is distinguished; the second pasting mechanism 300 comprises a second conveying belt 310 and a second label pasting machine 320, wherein the second conveying belt 310 is arranged in a downward inclined way towards one side far away from the first conveying belt 210, so that the can body pushed to the second conveying belt 310 is propped against the second baffle 330 to move, the adjustment of the can body is completed, and the label pasting at a preset position is completed by matching with the second label pasting machine 320; the whole matching can automatically distinguish and adjust the placing direction of the tank body workpieces, so that the tank body workpieces can be accurately labeled, the processing efficiency is effectively improved, and the production cost is reduced.

Further, a plurality of first baffle plates 211 are fixedly disposed on the surface of the first conveyor belt 210, and the first baffle plates 211 are distributed in a linear array along the extending direction of the first conveyor belt 210; a plurality of second baffle plates 311 are fixedly arranged on the surface of the second conveying belt 310, and the second baffle plates 311 are distributed in a linear array along the extending direction of the second conveying belt 310; the distance between any two adjacent first baffle plates 211 is equal to the distance between any two adjacent second baffle plates 311; this structure sets up can make the jar body better along with the conveyer belt removes to can conveniently carry out the fixed point for first conveyer belt 210 and second conveyer belt 310 and carry out the counterpoint with accurate and first breach 240, second breach 340, ensure the accuracy of propelling movement and go on.

Further, the pushing structure 400 includes a first hydraulic cylinder 410, the first hydraulic cylinder 410 is fixed on the base plate 100 through a bracket, a first push plate 420 is fixedly disposed at an end of a piston rod of the first hydraulic cylinder 410, and a width of the first push plate 420 is smaller than a distance between the two first blocking pieces 211; a first infrared sensor 430 is installed on the first push plate 420, and a probe of the first infrared sensor 430 faces the direction of the first conveyor belt 210 and penetrates to the surface of the first push plate 420; the structural design can detect the distance from the first push plate 420 to the end of the tank body through the first infrared sensor 430, so as to judge the placement direction of the tank body; the first infrared sensor is a distance measurement infrared sensor.

Further, a second infrared sensor 350 is mounted on the second baffle 330 far from the first conveyor belt 210, the second infrared sensor 350 is disposed corresponding to the second notch 340, and the probe penetrates to the surface of the second baffle 350; the second infrared sensor 350 is configured to detect the can falling into the second conveyor belt 310, thereby automatically starting the second conveyor belt 310 and improving the degree of automation.

Further, a pressing mechanism 500 is disposed on a side of the first attaching mechanism 200 adjacent to the second attaching mechanism 300, and the pressing mechanism 500 is located between the first label attaching machine 220 and the pushing structure 400; the pushing mechanism 500 includes a second hydraulic cylinder 510, the second hydraulic cylinder 510 is fixed on the bottom plate 100 through a bracket, a second push plate 520 is fixedly provided at the end of a piston rod of the second hydraulic cylinder 510, a third notch 250 is provided on the first baffle 230 corresponding to the second push plate 520, a third infrared sensor 530 is mounted on the second push plate 520, and the third infrared sensor 530 penetrates to the surface of the second push plate 520; the pushing mechanism 500 is configured to further adjust the can body on the first conveyor belt 210, so that the can body after passing through the pushing mechanism 500 abuts against the first baffle 230 to move, thereby facilitating accurate alignment and label pasting by the subsequent first label pasting machine 220.

Further, a guide plate 600 is disposed between the first notch 240 and the second notch 340, the guide plate 600 is fixed on the top surface of the bottom plate 100 through a bracket, and barrier strips 610 are fixedly disposed on two sides of the guide plate 600; and the width of the material guiding plate 600 near one side of the first conveyor belt 210 is larger than the width of the other side; the structural design can facilitate the transportation of the tank body between the first conveying belt 210 and the second conveying belt 310, so that the tank body can accurately fall into the second conveying belt 310.

Further, the second label applicator 320 applies the workpiece to a portion of the workpiece near the lower side of the second conveyor 310; the first label applicator 220 applies a portion of the work piece on a side away from the second conveyor 310.

Further, the vibration motor 700 is installed at the bottom of the support of the second conveying belt 310, and the vibration motor 700 can rotate to the second conveying belt 310, so that the tank body is better close to the lower end of the incline, and accurate alignment and label pasting of the second label pasting machine 220 are ensured.

Working principle:

when the invention works, a worker places a can body which is not covered on the first conveyor belt 210, and the first conveyor belt 210 is started to move at a lattice distance each time to drive the can body to transfer and convey; when the belt can moves to the position of the pushing structure 400, the first infrared sensor 430 detects that the can moves in place, and judges the placement position of the can by detecting the distance of the end of the can; if the can placement direction is correct, the first conveyor belt 210 continues to move, driving the can to move toward the first label applicator 220, and during this period, the path pushing mechanism 500 is started, when the third infrared sensor 530 detects that the can moves in place, the second hydraulic cylinder 510 pushes the can to abut against the first baffle 230 to slide, and the subsequent can moves along the first baffle 230 and enters the first label applicator 220 to obtain label application; if the can placement direction is reversed, the first hydraulic cylinder 410 pushes the can to the second pasting mechanism 300, the second conveying belt 310 inclines in a direction away from the first conveying belt 210, after the can enters the second conveying belt 310, the vibration motor 700 is started to accelerate the can to move towards the second baffle 330 and prop against the second baffle 330, when the second infrared sensor 350 detects that the can is in place, the second conveying belt 310 is started to move and each time moves at a distance of one lattice, and the can moves along with the second conveying belt 310 to enter the second label pasting machine 320 to paste labels; the moving pitches of the first conveyor belt 210 and the second conveyor belt 310 are uniform, so that accurate alignment of the first conveyor belt 210 and the second conveyor belt 310 can be ensured.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The invention is not to be limited by the specific embodiments disclosed herein, and other embodiments are within the scope of the invention as defined by the claims of the present application.

Claims

1. Automatic device of pasting of jar body label, its characterized in that:

the automatic labeling device comprises a bottom plate (100), a first sticking mechanism (200) and a second sticking mechanism (300) which are fixedly arranged on the top surface of the bottom plate (100), wherein the first sticking mechanism (200) is used for sticking labels to workpieces placed in the forward direction, and the second sticking mechanism (300) is used for sticking labels to the workpieces placed in the reverse direction;

the first pasting mechanism (200) comprises a first conveying belt (210) and a first label pasting machine (220), and the first label pasting machine (220) is arranged at the downstream section of the first conveying belt (210) through a bracket; the second pasting mechanism (300) comprises a second conveying belt (310) and a second label pasting machine (320), and the second label pasting machine (320) is arranged at the downstream section of the second conveying belt (310) through a bracket; the first conveyor belt (210) and the second conveyor belt (310) are arranged side by side, and the second conveyor belt (310) is inclined downwards towards one side far away from the first conveyor belt (210); the two sides of the first conveying belt (210) are provided with first baffle plates (230), the two sides of the second conveying belt (310) are provided with second baffle plates (330), one side, far away from the second conveying belt (310), of the first conveying belt (210) is provided with a pushing structure (400), two first baffle plates (230) are provided with first gaps (240) corresponding to the pushing structure (400), the second baffle plates (330) close to one side of the first conveying belt (210) are provided with second gaps (340), the positions of the second gaps (340) correspond to the positions of the first gaps (240), and the pushing structure (400) pushes reverse placing workpieces in a path onto the second conveying belt (310);

when the automatic tank conveying device works, a worker places a tank body which is not subjected to capping on a first conveying belt (210), and the first conveying belt (210) is started and moves at a lattice distance each time to drive the tank body to be conveyed; when the belt tank body moves to the position of the pushing structure (400), the first infrared sensor (430) detects that the tank body moves in place, and the placement position of the tank body is judged by detecting the distance of the end part of the tank body; if the can body placement direction is correct, the first conveying belt (210) continues to move to drive the can body to move towards the first label pasting machine (220), and during the period, the path pushing mechanism (500) is started when the third infrared sensor (530) detects that the can body moves in place, the second hydraulic cylinder (510) pushes the can body to prop against the first baffle plate (230) to slide, and then the can body moves along the first baffle plate (230) and enters the first label pasting machine (220) to obtain label pasting; if the direction of placing the can body is reversed, the first hydraulic cylinder (410) pushes the can body to the second pasting mechanism (300), the second conveying belt (310) inclines towards the direction away from the first conveying belt (210), after the can body enters the second conveying belt (310), the vibrating motor (700) is started to accelerate the can body to move towards the second baffle (330) and prop against the second baffle (330), when the second infrared sensor (350) detects that the can body is in place, the second conveying belt (310) is started to move, and each time the second conveying belt (310) moves at a lattice distance, and the can body moves along with the second conveying belt (310) to enter the second label pasting machine (320) to paste labels.

2. The automatic can label attaching device according to claim 1, wherein:

a plurality of first baffle plates (211) are fixedly arranged on the surface of the first conveyor belt (210), and the first baffle plates (211) are distributed in a linear array along the extending direction of the first conveyor belt (210); a plurality of second baffle plates (311) are fixedly arranged on the surface of the second conveying belt (310), and the second baffle plates (311) are distributed in a linear array along the extending direction of the second conveying belt (310); the distance between any two adjacent first baffle plates (211) is equal to the distance between any two adjacent second baffle plates (311).

3. The automatic can label attaching device according to claim 2, wherein:

the pushing structure (400) comprises a first hydraulic cylinder (410), the first hydraulic cylinder (410) is fixed on the bottom plate (100) through a bracket, a first pushing plate (420) is fixedly arranged at the end part of a piston rod of the first hydraulic cylinder (410), and the width of the first pushing plate (420) is smaller than the interval between two first baffle plates (211); the first pushing plate (420) is provided with a first infrared sensor (430), and a probe of the first infrared sensor (430) faces the direction of the first conveying belt (210) and penetrates to the surface of the first pushing plate (420).

4. The automatic can label attaching device according to claim 1, wherein:

and a second infrared sensor (350) is arranged on the second baffle plate (330) far away from the first conveying belt (210), the second infrared sensor (350) is arranged corresponding to the second notch (340), and a probe penetrates to the surface of the second baffle plate (350).

5. The automatic can label attaching device according to claim 1, wherein:

a pushing mechanism (500) is arranged on one side, close to the second attaching mechanism (300), of the first attaching mechanism (200), and the pushing mechanism (500) is located between the first label attaching machine (220) and the pushing structure (400); the pushing mechanism (500) comprises a second hydraulic cylinder (510), the second hydraulic cylinder (510) is fixed on the bottom plate (100) through a support, a second pushing plate (520) is fixedly arranged at the end part of a piston rod of the second hydraulic cylinder (510), a third notch (250) is formed in the first baffle (230) corresponding to the second pushing plate (520), a third infrared sensor (530) is mounted on the second pushing plate (520), and the third infrared sensor (530) penetrates through the surface of the second pushing plate (520).

6. The automatic can label attaching device according to claim 1, wherein:

a material guide plate (600) is arranged between the first notch (240) and the second notch (340), the material guide plate (600) is fixed on the top surface of the bottom plate (100) through a bracket, and barrier strips (610) are fixedly arranged on two sides of the material guide plate (600); and the width of one side of the material guiding plate (600) close to the first conveying belt (210) is larger than that of the other side.

7. The automatic can label attaching device according to claim 1, wherein:

the second label applicator (320) applies a label to a part of the workpiece adjacent to the lower side of the second conveyor belt (310); the first label applicator (220) applies a label to a portion of the workpiece on a side remote from the second conveyor (310).

8. The automatic can label attaching device according to claim 1, wherein:

and a vibrating motor (700) is arranged at the bottom of the bracket of the second conveying belt (310).