CN211810640U - Divide material to print labeller - Google Patents

Abstract

The utility model provides a divide material to print labeller, connection control system, including operation platform, the last linking in order of operation platform is fixed with: a discharging device; the main conveying system comprises two symmetrical conveying belts which are driven by a conveying motor to synchronously run; a material receiving device; the main conveying system is sequentially provided with an information reading device, a printing and labeling device, a checking device and a removing device, and the removing device placing position is close to the material receiving device. The device can continuously and efficiently complete targeted labeling and printing and material-specific labeling, screens out materials meeting requirements, and realizes full-automatic material correlation and real-time labeling and printing. The production efficiency is improved, and the production cost is saved.

Description

Divide material to print labeller

Technical Field

The invention relates to a labeling device, in particular to a material-separating printing labeling machine.

Background

With the development of the modern non-card-connected packaging industry, manufacturers pay more and more attention to automation and effectiveness. The traditional production process flow is as follows: reading the information of the non-joint card, printing corresponding label information according to the information, manually pasting a label with viscosity on the express bag, further manually loading the non-joint card into the express bag, sealing, and finally checking whether the information on the label is consistent with the information of the non-joint card. The process and the operation mode are complex and incoherent, the automation degree is low, and the requirements of automation and real-time production cannot be met. With the advance of industrial automation, it is an urgent need to develop a full-automatic real-time printing and labeling machine associated with non-card-receiving information.

Disclosure of Invention

The invention provides a material-separating printing labeling machine, which solves the problems in the prior art.

The technical scheme of the invention is realized as follows:

divide the material to print labeller, connection control system, including operation platform, operation platform is last to link up in order and be fixed with:

a discharging device; the main conveying system comprises two symmetrical conveying belts which are driven by a conveying motor to synchronously run; a material receiving device; the main conveying system is sequentially provided with an information reading device, a printing and labeling device, a checking device and a removing device, and the removing device placing position is close to the material receiving device.

As a preferred scheme of the invention, the emptying device comprises a left baffle and a right baffle which are symmetrical, wherein a baffle adjusting device is arranged on one baffle; a feeding component and a pushing component are arranged between the two baffles.

As a preferable scheme of the invention, the discharge end of the feeding assembly is connected with a material sucking assembly, the material sucking assembly is connected with a swing arm assembly, and the free end of the swing arm assembly is hinged on a support below the feeding assembly.

As the preferred scheme of the invention, the main conveying system also comprises flanges symmetrically arranged at two outer sides, and limit stops for isolating materials are arrayed at equal intervals at the outer side surface of the conveying belt.

As a preferable scheme of the invention, the main conveying system further comprises a guide assembly, and the guide assembly is erected above the conveying belt and used for guiding materials.

As a preferable aspect of the present invention, the information reading device includes a card-non-receiving reading unit connected to the control system.

As a preferable aspect of the present invention, the verification device includes a visual detection unit and a non-card-connected verification unit connected to the control system.

As a preferable scheme of the invention, the printing and labeling device comprises a real-time printing unit and a labeling device connected with the front end of the real-time printing unit along the transmission direction.

As a preferred scheme of the present invention, the real-time printing unit includes an internal printer component, the real-time printing unit includes an unwinding component and a winding component, a sticker output from the unwinding component is printed by the printer component, and then the sticker is peeled off from the label base paper with the adhesive property by a separation roller at the front end of the real-time printing unit, and the label base paper is wound by the winding component after bypassing the separation roller.

According to the preferred scheme of the invention, the labeling device comprises a transmission frame gradually lowered along the transmission direction, a label absorbing belt linked through a rotating wheel is sleeved outside the transmission frame, the rotating wheel is connected with a labeling motor, a negative pressure generating unit is installed in the transmission frame, and through holes matched with the negative pressure generating unit are arrayed on the label absorbing belt;

the separation roller and the label absorbing belt are in a clearance fit structure; the discharging end of the label belt in the transmission frame is connected with a stripping plate for labeling;

the hardness of the label is greater than the hardness of the label backing paper.

Advantageous effects

Divide the material to print labeller, connection control system, including operation platform, operation platform is last to link up in order and be fixed with: a discharging device; the main conveying system comprises two symmetrical conveying belts which are driven by a conveying motor to synchronously run; a material receiving device; the main conveying system is sequentially provided with an information reading device, a printing and labeling device, a checking device and a removing device, and the removing device placing position is close to the material receiving device. The device can continuously and efficiently complete targeted labeling and printing and material-specific labeling, screens out materials meeting requirements, and realizes full-automatic material correlation and real-time labeling and printing. The production efficiency is improved, and the production cost is saved.

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, and 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 these drawings without creative efforts.

FIG. 1 is a schematic front view of the present invention;

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

FIG. 3 is a schematic front view of the discharge device of the present invention;

FIG. 4 is a schematic top view of the discharge device of the present invention;

FIG. 5 is a schematic front view of the main conveyor system of the present invention;

FIG. 6 is a schematic top view of the primary conveyor system of the present invention;

FIG. 7 is a schematic front view of a printing unit according to the present invention;

FIG. 8 is a schematic top view of a printing unit according to the present invention;

FIG. 9 is a schematic front view of the labeling device of the present invention;

fig. 10 is a schematic top view of the labeling device of the present invention.

The automatic labeling machine comprises a discharging device 1, a feeding assembly 101, a pushing assembly 102, a baffle adjusting device 103, a swing arm assembly 104, a sucking assembly 105, a main conveying system 2, a conveying belt 201, a baffle 202, a guide assembly 203, a conveying motor 204, a limit stop 2011, a non-joint card reading unit 3, a real-time printing unit 4, an unreeling assembly 401, a printer assembly 402, a reeling assembly 403, a support adjusting assembly 404, a labeling device 5, a connecting plate 501, a label sucking belt 502, a stripping plate 503, a labeling motor 504, a negative pressure generating unit 505, a visual detection unit 6, a non-joint card checking unit 7, a rejecting device 8, a receiving device 9, a control system 10, a material 11 and a label 12.

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 embodiment is only an assembly embodiment of the present invention, and not all 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.

Example 1

The separated material printing and labeling machine as shown in fig. 1-10, which is connected with a control system, comprises an operating platform, wherein the operating platform is sequentially connected and fixed with:

a discharging device 1; the main conveying system 2 comprises two symmetrical conveying belts 201 which are driven by a conveying motor 204 to run synchronously; a material receiving device;

the main conveying system 2 is sequentially provided with an information reading device, a printing and labeling device, a checking device and a removing device 8, and the removing device 8 is arranged close to the material receiving device 9.

The feeding device 1 comprises a left baffle and a right baffle which are symmetrical, wherein a baffle adjusting device 103 is arranged on one baffle; a feeding component 101 and a pushing component 102 are arranged between the two baffle plates. The feeding assembly comprises a plurality of synchronous belts in parallel synchronous linkage, the materials are placed on the synchronous belts by taking an express bag with a paperboard structure in the express industry as an example, the pushing assembly in the discharging device can be a pushing plate linked through a cylinder or a screw rod assembly and is inserted between the synchronous belts, and when the materials are placed on the synchronous belts to move forwards, the pushing plate at the rear part assists the materials to push forwards, so that the materials are prevented from being overturned backwards.

Blowing device 1 position is higher than main conveying system upper surface in this application, and arc baffle that one and hold-in range discharge end link up is inhaled to two veneer front side intermediate junction, inhales the material subassembly and links up in arc baffle.

The discharge end of the feeding assembly 101 is connected with a material sucking assembly 105, the material sucking assembly 105 is connected with a swing arm assembly 104, and the free end of the swing arm assembly 104 is hinged on a support below the feeding assembly 101. The swing arm assembly is actually a link mechanism and is driven to move by a cylinder or other driving devices, the swing arm assembly is arranged between two conveying belts of a main conveying system, the material sucking assembly 105 fixed to the upper end of the swing arm assembly comprises a frame and suckers arrayed on the frame and communicated with a suction pump, the frame is driven by the swing arm assembly to bear and receive materials at the discharge end of a discharging device, and the materials are transmitted to a conveying belt 201 in a proper manner to complete transmission connection of the materials of two components.

Example 2

The main conveying system further comprises flanges 202 symmetrically arranged on two sides of the outside, and limit stops 2011 used for isolating materials are arranged on the outer side surface of the conveying belt 201 in an equidistant array mode. The corresponding material blocking cross beam can be arranged on the frame of the main conveying system as required, so that excessive overlapping of materials is prevented, and the effect of stacking the materials is achieved.

The main conveying system further comprises a guide assembly 203, wherein the guide assembly is erected above the conveying belt 201 and is used for conducting guide operation on the materials 11. The guide assembly can comprise left and right symmetrical guide plates, and the distance between the two guide plates is gradually narrowed along with the material conveying direction to form a progressive guide action.

The information reading device comprises a non-card reading unit 3 connected with the control system.

The checking device comprises a visual detection unit 6 and a non-card-receiving checking unit 7 which are connected with the control system. The system includes corresponding sensor components and module components, which are all in the prior art, and the detailed structure is not repeated.

Example 3

The printing and labeling device comprises a real-time printing unit 4 and a labeling device 5 connected with the front end of the real-time printing unit along the transmission direction. The real-time printing unit 4 is prior art, and the internal printing module and associated connection structure are known solutions.

Real-time printing unit 4 includes inside printer component 402, including unreeling subassembly 401 and rolling component 403 on the real-time printing unit, unreel the printing back of printer component 402 of the sticker of output in the subassembly 401, through the separation roller of real-time printing unit 4 front end, peel off sticky label and label base stock, the label base stock is after bypassing the separation roller, through the rolling of rolling component 403.

The labeling device 5 comprises a transmission frame gradually lowered along the transmission direction, a label absorbing belt 502 linked through a rotating wheel is sleeved outside the transmission frame, the rotating wheel is connected with a labeling motor 504, a negative pressure generating unit 505 is installed in the transmission frame, and through holes matched with the negative pressure generating unit 505 are arrayed on the label absorbing belt 502;

the separation roller and the label suction belt 502 are in a clearance fit structure; the discharge end of the label band 502 in the transmission frame is connected with a stripping plate 503 for labeling; the stripping plate can be provided with a spring structure, the front section of the stripping plate is provided with a brush, so that materials meeting the height limitation can be in close contact with the stripping plate when passing through the stripping plate, and efficient labeling is completed.

The hardness of the label is greater than the hardness of the label backing paper. The control system 10 in the system comprises a control circuit, a power supply circuit, an MCU and a signal transceiver which are connected with each other, and is connected with each module in the system to complete the collection work of control and signals in real time.

Example 4

As shown in fig. 1 and 2, the full-automatic real-time printing and labeling machine related to non-card-receiving information of the present invention includes a material feeding device 1, a main conveying system 2, a non-card-receiving reading unit 3, a real-time printing unit 4, a labeling device 5, a visual detection unit 6, a non-card-receiving verification unit 7, a removing device 8, a material receiving device 9, and a control system 10.

The discharging device 1 is used for discharging and conveying materials 11 to the main conveying system 2 and comprises a feeding assembly 101, a pushing assembly 102, a flange adjusting device 103, a swing arm assembly 104 and a material sucking assembly 105.

The main conveying system 2 is connected with the emptying device 1 and comprises a conveying belt 201, a baffle 202, a guide assembly 203 and a conveying motor 204.

The main conveying system 2 is provided with limit stops 2011 uniformly distributed on a conveying belt and divides the conveying belt 201 into a plurality of stations in the running direction; the guide assembly 203 is fixed on the main conveying system 2, and can push the material 11 passing through the guide assembly to the rear side of the running direction until the material is tightly attached to the limit stop 2011. The single station is in horizontal space and can only accommodate a single material 11.

A non-pickup reading unit 3 is mounted on the main conveyor system 2 for inductively reading information contained in the material 11 on the conveyor belt 201 in the region passing by it.

The real-time printing unit 4 is connected with the non-card-receiving reading unit 3 above the main conveying system 2; the printing device comprises an unreeling assembly 401, a printing assembly 402, a reeling assembly 403 and a support adjusting assembly 404 for adjusting the spatial position of the printing unit 4.

And the real-time printing unit 4 can generate a required single label 12 at the tail end of the printing assembly 402 after the unreeling assembly 401 puts the blank label roll.

The labeling device 5 is arranged on the real-time printing unit 4 and is used for receiving the single label 12 generated by the real-time printing unit 4; the label sticking machine comprises a connecting plate 501 for transition of labels 12, a label sucking belt 502 for sucking the labels without falling off, a peeling plate 503 for sticking, a sticking motor 504 for providing rotation power of the label sucking belt 502, and a negative pressure generating unit 505 for providing vacuum suction force.

The visual detection unit 6 is arranged above the main conveying system 2 and is connected with the labeling device 5; which is used to detect whether the information of the label 12 attached to the material 11 is complete and to extract the information by vision.

A non-card-receiving checking unit 7 connected with the visual detection unit 6; which again serves to inductively read the information contained in the material 11 on the conveyor belt 201 in the area passing by it.

And the removing device 8 is connected with the non-card-receiving verification unit 7 and is used for removing the materials 11 which cannot sense and read information, the printed information of the labels 12 is incomplete, and the materials 11 with the information of the labels 12 inconsistent with that of the materials 11 are removed.

The material receiving device 9 is connected with the main conveying system 2 and used for orderly receiving the materials 11 sent by the main conveying system 2.

The control system 10 is provided with a parameter adjustment work interface, a control program and the like.

The working process of the invention is as follows: and (4) placing the non-receiving card into an express bag by the background to finish packaging to form a material 11. The material 11 is vertically stacked in the emptying device 1, and is horizontally placed on the conveying belt 201 in the main conveying system 2 through the grabbing of the material suction assembly 105 in the emptying device 1 and the swinging and rotating angle of the swing arm assembly 104. Material 11 reads the information wherein through the response of non-joint card reading unit 3 in proper order through conveyer belt 201 among the main conveyor system 2, transmit printer component 402 and print label 12 in real time, label 12 pastes to material 11 surface through labeller 5, when material 11 passes through visual detection unit 6, visual detection unit 6 reads whether clear and the information of reading label 12 of label 12 printing, material 11 is responded to again and is read information when not joining card verification unit 7, the information of this moment and the information that visual detection unit 6 extracted are compared. If the printed label 12 is not clear or the information extracted by the visual detection unit 6 is inconsistent with the information read by the non-card-receiving verification unit 7, the material 11 is judged to be unqualified and is rejected when passing through the rejecting device 8, and other qualified products smoothly pass through the rejecting device 8 and reach the material receiving device 9.

The discharging device 1 can stack a large amount of materials 11 at one time, is convenient to operate and effectively avoids frequent feeding; the feeding device 101 is provided with power, so that a large amount of stacked materials 11 can be normally fed to the tail end of the discharging device 1; the final rotation angle theta of the material 11 placed in the material placing device can be 90 degrees in the figure, and can also be any other reasonable angle.

The material 11 of the invention can be an express bag in the background technology, and can also be paper bags, plastic bags, paper boxes, plastic boxes, paper boxes and plastic boxes with other rules. The labeling can be in other information labeling modes such as code spraying, printing and the like.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. Divide material to print labeller, connection control system including operation platform, its characterized in that, the last linking in order of operation platform is fixed with:

a discharging device (1);

the main conveying system (2) comprises two symmetrical conveying belts (201) driven by a conveying motor (204) to run synchronously;

a material receiving device;

the main conveying system (2) is sequentially provided with an information reading device, a printing and labeling device, a checking device and a removing device (8), and the removing device (8) is placed close to the material receiving device (9).

2. The machine according to claim 1, characterized in that the feeding device (1) comprises two symmetric baffles, one of which is provided with a baffle adjusting device (103); a feeding component (101) and a pushing component (102) are arranged between the two baffles.

3. The machine according to claim 2, characterized in that the discharge end of the feeding assembly (101) is connected with a suction assembly (105), the suction assembly (105) is connected with a swing arm assembly (104), and the free end of the swing arm assembly (104) is hinged on a bracket below the feeding assembly (101).

4. The machine according to claim 1, characterized in that the main conveying system further comprises flanges (202) symmetrically arranged on two outer sides, and limit stops (2011) for isolating materials are arranged on the outer side surface of the conveying belt (201) at equal intervals.

5. The machine according to claim 4, characterized in that the main conveyor system further comprises a pilot assembly (203) mounted above the conveyor belt (201) for conducting a pilot operation on the material (11).

6. The machine according to claim 1, characterized in that said means for reading information comprise a non-joint card reading unit (3) connected to a control system.

7. The machine according to claim 1, characterized in that said verification means comprise a visual detection unit (6) and a non-landing verification unit (7) connected to a control system.

8. The machine according to claim 1, characterized in that said printing and labeling means comprise a live printing unit (4) and a labeling means (5) connected to the live printing unit at the front end in the direction of transport.

9. The machine according to claim 8, wherein the real-time printing unit (4) comprises an internal printer assembly (402), the real-time printing unit comprises an unwinding assembly (401) and a winding assembly (403), the sticker output from the unwinding assembly (401) is printed by the printer assembly (402), the sticker with the adhesive property and the label backing paper are peeled off by a separating roller at the front end of the real-time printing unit (4), and the label backing paper is wound by the winding assembly (403) after bypassing the separating roller.

10. The label separating, printing and labeling machine according to claim 9, wherein the labeling device (5) comprises a transmission frame which is gradually lowered along the conveying direction, a label suction belt (502) linked through a rotating wheel is sleeved outside the transmission frame, the rotating wheel is connected with a labeling motor (504), a negative pressure generating unit (505) is installed in the transmission frame, and through holes matched with the negative pressure generating unit (505) are arrayed on the label suction belt (502);

the separation roller and the label suction belt (502) are in a clearance fit structure; the discharge end of the label belt (502) in the transmission frame is connected with a stripping plate (503) for labeling;

the hardness of the label is greater than the hardness of the label backing paper.

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