阅读说明：本技术 一种商标纸的输送和监测装置 (Conveying and monitoring device for label paper ) 是由 陶力 蔡培良 王睿 潘昱亭 易近参 解道彪 李鑫 曹柱祥 于 2021-09-29 设计创作，主要内容包括：本申请公开了一种商标纸的输送和监测装置,包括第一传送带、第二传送带、移动平台组件、第一监测组件和第二监测组件,其中,第一传送带用于传送成摞叠置的商标纸；第二传送带用于传送单张商标纸,第二传送带上设有监测位置；移动平台组件设置到第一传送带和第二传送带之间,用于接收成摞叠置的商标纸,以及下降到第二传送带；第一监测组件用于监测移动平台组件中成摞叠置的商标纸的传送状态信息；第二监测组件用于监测单张商标纸的传送状态信息。本申请能够完成商标纸的自动化传输,丰富了该装置的智能化和自动化,以及能够实时地、连续地对商标纸的传输过程进行监测,从而节省了人工成本的同时,能够使商标纸高效、高质的传输。(The application discloses a label paper conveying and monitoring device, which comprises a first conveyor belt, a second conveyor belt, a moving platform assembly, a first monitoring assembly and a second monitoring assembly, wherein the first conveyor belt is used for conveying stacked label paper; the second conveyor belt is used for conveying a single piece of label paper and is provided with a monitoring position; the moving platform assembly is arranged between the first conveyor belt and the second conveyor belt and used for receiving the stacked trademark paper piles and descending to the second conveyor belt; the first monitoring assembly is used for monitoring the transmission state information of the stacked trademark paper in the mobile platform assembly; the second monitoring component is used for monitoring the transmission state information of the single label paper. The automatic transmission of label paper can be accomplished to this application, has richened the device's intellectuality and automation to and can monitor the transmission process of label paper in real time, continuously, thereby when having saved the cost of labor, can make the transmission of label paper high efficiency, high-quality.)

1. The device for conveying and monitoring the label paper is characterized by comprising a first conveyor belt, a second conveyor belt, a moving platform assembly, a first monitoring assembly and a second monitoring assembly, wherein,

the first conveyor belt is used for conveying the stacked trademark paper in a pile;

the second conveyor belt is used for conveying a single label paper, and monitoring positions are arranged on the second conveyor belt;

the moving platform assembly is arranged between the first conveyor belt and the second conveyor belt and is used for receiving the piled and overlapped trademark paper and descending to the second conveyor belt;

the first monitoring assembly is used for monitoring the conveying state information of the stacked trademark paper piles in the mobile platform assembly;

the second monitoring component is used for monitoring the transmission state information of the single label paper.

2. The label delivery and monitoring device of claim 1, wherein the moving platform assembly includes a moving platform and a guide disposed proximate the infeed end of the second conveyor belt, the moving platform being slidably coupled to the guide;

in a working state, the moving platform reciprocates between the delivery end of the first conveyor belt and the delivery end of the second conveyor belt along the guide rail.

3. The label paper feeding and monitoring device according to claim 2, wherein a suction cup is further provided adjacent to the feeding end of the second conveyor belt.

4. The label paper feeding and monitoring device according to claim 3, wherein the first monitoring assembly comprises an oblique correlation fiber sensor, wherein the transmitting end and the receiving end of the oblique correlation fiber sensor protrude to both sides of the mobile platform in a height-staggered manner.

5. The label feeding and monitoring device of claim 4, wherein said first monitoring assembly further comprises a parallel correlation fiber optic sensor disposed at an edge of said stack of stacked labels.

6. The label paper conveying and monitoring device according to claim 5, further comprising a micro switch assembly, wherein the micro switch assembly comprises a micro switch and a trigger spring, the micro switch is arranged close to the outgoing end of the first conveyor belt, and one end of the trigger spring is connected with the micro switch.

7. The apparatus for conveying and monitoring a label paper as claimed in claim 6, wherein a shaping baffle is further provided along the conveying direction of the first conveyor belt.

8. A label sheet feeding and monitoring device according to claim 1, wherein said second monitoring assembly comprises a jam detector disposed at said monitoring position above the level of the single label sheet at said monitoring position.

9. The label conveying and monitoring device according to claim 1, wherein a color code detection area is provided on the label;

the second monitoring assembly further comprises a color mark sensor, and the color mark sensor is arranged on a single piece of label paper and used for detecting the upper color mark of the color mark detection area when the single piece of label paper is in the monitoring position.

10. The label delivery and monitoring device of claim 1, wherein the second monitoring assembly further comprises a boss monitor.

Technical Field

The application relates to the technical field of cigarette label paper conveying, in particular to a conveying and monitoring device for label paper.

Background

In the cigarette production process, the cigarette packet production is completed by processing the label paper conveyed to the designated position. Therefore, in order to not affect the production efficiency and the production progress of the cigarette packets, the label paper needs to be continuously and unmistakably conveyed.

At present, an artificial mode is generally adopted, the conveying of the label paper is checked at intervals of preset time, however, the manual cost is increased, the conveying of the label paper cannot be monitored in real time, and the product quality of cigarette packets cannot be guaranteed.

Accordingly, there is a need in the art for a new label sheet feeding and monitoring device that addresses the above-mentioned problems.

Disclosure of Invention

The application provides a new technical scheme for conveying and monitoring label paper.

The application provides a label paper conveying and monitoring device, which comprises a first conveyor belt, a second conveyor belt, a mobile platform assembly, a first monitoring assembly and a second monitoring assembly, wherein,

the first conveyor belt is used for conveying the stacked trademark paper in a pile;

the second conveyor belt is used for conveying a single piece of label paper and is provided with a monitoring position;

the moving platform assembly is arranged between the first conveyor belt and the second conveyor belt and used for receiving the stacked trademark paper piles and descending to the second conveyor belt;

the first monitoring assembly is used for monitoring the transmission state information of the stacked trademark paper in the mobile platform assembly;

the second monitoring component is used for monitoring the transmission state information of the single label paper.

Preferably, the moving platform assembly comprises a moving platform and a guide rail arranged close to the incoming end of the second conveyor belt, and the moving platform is connected with the guide rail in a sliding manner;

in the operating state, the moving platform reciprocates along the guide rail between the delivery end of the first conveyor belt and the delivery end of the second conveyor belt.

Preferably, a negative pressure suction cup is further arranged close to the delivery end of the second conveyor belt.

Preferably, the first monitoring assembly comprises an oblique correlation optical fiber sensor, wherein a transmitting end and a receiving end of the oblique correlation optical fiber sensor extend out of two sides of the mobile platform in a staggered height mode.

Preferably, the first monitoring assembly further comprises a parallel correlation optical fibre sensor disposed at an edge of the stack of superimposed labels.

Preferably, the conveying and monitoring device further comprises a microswitch assembly, the microswitch assembly comprises a microswitch and a trigger spring, the microswitch is arranged close to the outgoing end of the first conveying belt, and one end of the trigger spring is connected with the microswitch.

Preferably, a shaping baffle is further provided in the conveying direction of the first conveyor belt.

Preferably, the second monitoring assembly includes a jam detector disposed at the monitoring location and above the level of the single sheet of label paper at the monitoring location.

Preferably, a color code detection area is arranged on the label paper;

the second monitoring subassembly still includes the color mark sensor, and the color mark sensor sets up the top color mark detection in color mark detection zone when the sola trademark paper is on the monitoring position.

Preferably, the second monitoring assembly further comprises a boss monitor.

The conveying and monitoring device of the label paper of some embodiments of this application through setting up the moving platform subassembly between first conveyer belt and the second conveyer belt, can be convenient for receive and bear the weight of label paper and take from first conveyer belt to the second conveyer belt, and then accomplish the label paper by piling up the transmission of piling up the form to single label paper. In particular, when the mobile platform assembly is raised, it may engage the first conveyor belt, thereby causing a stack of superimposed labels to be placed into the mobile platform. When this moving platform subassembly descends, can descend the second conveyer belt with the trademark paper, and then transmit this trademark paper. Therefore, the automatic transmission of the label paper is completed, and the intellectualization and the automation of the device are enriched.

In addition, a first monitoring assembly and a second monitoring assembly are arranged along the transmission direction of the conveyor belt. The first monitoring assembly can monitor the placing postures, the transmission quantity and other transmission state information of the stacked trademark papers in the first conveyor belt and the mobile platform assembly. Above-mentioned second monitoring subassembly can monitor the posture of putting of a single trademark paper on the second conveyer belt, positive and negative waiting transmission state information of putting, and then can confirm the transmission state of trademark paper in real time, continuously. Therefore, labor cost is saved, and meanwhile, efficient and high-quality transmission of the label paper can be achieved.

Further features of the present application and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which is to be read in connection with the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the application and together with the description, serve to explain the principles of the application.

FIG. 1 is a first schematic structural view of a label sheet feeding and monitoring apparatus according to the present application;

fig. 2 is a second schematic construction of a label sheet feeding and monitoring device according to the present application.

The figures are labeled as follows:

1. a first conveyor belt; 2. A microswitch; 3. Shaping a baffle;

4. label paper; 5. A color code detection area; 6. A mobile platform;

7. a guide rail; 8. The diagonal correlation optical fiber sensor; 9. A parallel correlation fiber optic sensor;

10. a negative pressure sucker; 11. A jam detector; 12. A color code sensor;

13. a second conveyor belt.

Detailed Description

Various exemplary embodiments of the present application will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present application unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

Please refer to fig. 1 and fig. 2. Fig. 1 is a first structural schematic diagram of a label sheet conveying and monitoring device according to the present application, showing a conveying mechanism of a stack of label sheets. Fig. 2 is a second schematic configuration of a label sheet feeding and monitoring apparatus according to the present application, showing a single label sheet monitoring mechanism.

As shown in fig. 1 and 2, the apparatus for conveying and monitoring a label paper includes a first conveyor belt 1, a second conveyor belt 13 disposed below an end portion (shown as a left end in fig. 1) of the first conveyor belt 1, a moving platform assembly (not shown in its entirety), a first monitoring assembly, and a second monitoring assembly. The first conveyor belt 1 is used for conveying the label paper 4 which is piled and overlapped; the second conveyor belt 13 is used for conveying a single piece of the label paper 4, and a monitoring position is arranged on the second conveyor belt. A moving platform assembly is provided between said first conveyor 1 and said second conveyor 13 for receiving said stack of superimposed labels 4 and for lowering said second conveyor 13. Specifically, the second conveyor 13 is connected end to end with the first conveyor 1 by conduction of a moving platform assembly.

Specifically, the moving platform assembly includes a moving platform 6 and a guide rail 7 disposed near a feeding end (left end in fig. 2) of the second conveyor belt 13. The moving platform 6 is slidably connected to the guide rail 7. In operation, the movable platform 6 reciprocates up and down along the guide rail 7 between the outgoing end (left end in fig. 1) of the first conveyor 1 and the incoming end (left end in fig. 2) of the second conveyor 13. In particular, when the mobile platform 6 is raised, it can engage the first conveyor belt 1, so that the stack of superimposed labels 4 is placed in the mobile platform 6. When the moving platform 6 is lowered, the label paper 4 may be lowered to the second conveyor belt 13, thereby transferring the label paper 4. Therefore, the automatic transmission of the label paper 4 is completed, and the intellectualization and automation of the device are enriched. It should be noted that the moving platform 6 can move along the guide rail 7 under the driving of a traveling motor or a timing belt. The adjustment can be carried out by a person skilled in the art according to the actual situation.

Further, in order to allow the stacked sheets 4 to be stably transported one by the second conveyor belt 13, a vacuum chuck 10 may be further provided near the feeding end of the second conveyor belt 13 corresponding to the bottom of the moving platform 6. The negative pressure suction cup 10 can attract a single label paper 4 to fall down and is stably transmitted to a monitoring position on the second conveyor belt 13 through the second conveyor belt 13. The above-described suction cup 10 may be selected by those skilled in the art based on common general knowledge or the prior art.

Still further, in order to enable the individual sheets of label paper 4 to be conveyed regularly, a shaping flapper 3 is further provided along the conveying direction of the first conveyor belt 1. When label paper 4 carried on first conveyer belt 1, plastic baffle 3 can adjust the conveying gesture of label paper 4, avoids label paper 4 to put untidy and the condition emergence of jam appears.

The device of the present application further includes a microswitch assembly. The microswitch assembly is used to monitor the number of stacks of superimposed labels 4 on the first conveyor belt 1. Specifically, the microswitch assembly includes a microswitch 2 and a trigger spring (not shown), and the microswitch 2 is disposed near an outgoing end (left end in fig. 1) of the first conveyor belt 1. One end of the trigger spring is connected with the microswitch 2. In the working state, the label paper 4 on the first conveyor belt 1 presses the trigger spring to close the microswitch 2. When the trademark paper 4 on first conveyer belt 1 is less, the spring return, the signal of this micro-gap switch 2 disconnection can be transmitted to the controller, and then shows the display screen, and the suggestion staff need fill trademark paper 4.

The conveying and monitoring device of the label paper further comprises a first monitoring assembly and a second monitoring assembly. Respectively for monitoring the conveying status information of the stacked trademark paper 4 in the moving platform 6 and the conveying status information of the single trademark paper on the second conveyor belt 13.

In particular, the first monitoring assembly comprises a diagonal correlation fiber optic sensor 8. Wherein, the transmitting end and the receiving end of the diagonal correlation optical fiber sensor 8 extend to the two sides of the mobile platform 6 in a staggered manner. In the working state, when the number of the stacks of the superposed trademark paper 4 is large, the trademark paper 4 shields the light source at the emitting end, and the sufficient number of the trademark paper 4 is further determined. When the receiving end receives the light source, the token moving platform 6 is characterized by less trademark paper. At this time, a control signal may be sent to control the moving platform 6 to ascend to receive the next stack of stacked labels 4 on the first conveyor belt 1. In this way, the oblique correlation optical fiber sensor 8 can monitor the quantity information in the transmission state information of the label paper 4.

The first monitoring assembly may further comprise a parallel correlation fibre optic sensor 9. The installation position of the parallel correlation optical fiber sensor 9 may be a position near the edge of the label paper 4. The parallel correlation optical fiber sensor 9 determines whether the stacked trademark paper 4 is put in order by determining whether the trademark paper 4 blocks the light source. When the light source of the parallel correlation optical fiber sensor 9 is shielded, a warning signal can be sent to the display screen to remind workers that the superposition of the label paper is not standard. In this way, the parallel correlation optical fiber sensor 9 can monitor the overlay information in the transmission status information of the label paper 4.

The second monitoring component may comprise an occlusion detector 11. The jam detector 11 may be a fibre optic sensor. The installation height of the optical fiber sensor can be slightly higher than the thickness of a single piece of label paper. The jam detector 11 is provided for detecting a jam at a specific portion on the label paper 4. The jam detector 11 emits light above the surface of the label 4 as the single label 4 passes. When the label paper 4 is stacked, the light emitted from the jam detector 11 is blocked, thereby determining that the label paper 4 is jammed during the conveyance.

As an example, the jam detector 11 is arranged at a position corresponding to one of the pointed ears of a single label sheet at the monitoring position on the second conveyor 13, one jam detector 11 for each pointed ear. If one of the sharp-angled ears is folded, light emitted by the blocking detector 11 is blocked, so that the situation that the label paper 4 is blocked in the conveying process is determined, the controller sends out an alarm prompt, and therefore the operator is warned, and a single label paper 4 is stacked in the conveying process of the second conveying belt 13. In this way, the optical fiber sensor can monitor the jam information in the transmission state information of the label paper 4. The jam detector 11 may be a photoelectric sensor. The adjustment can be carried out by a person skilled in the art according to the actual situation.

A patch detection area 5 may be provided on the above-mentioned label paper 4. The second monitoring assembly described above may also include a color patch sensor 12. The above-described color patch sensor 12 is disposed above the color patch detection area 5 when a single sheet of label paper is at the monitoring position on the second conveyor belt 13. The transmitted label paper 4 is detected by the color mark sensor 12, and whether the label paper 4 has the color mark detection area 5 or not can be determined, so that whether the label paper 4 is put backwards or not is determined. In this way, the color mark sensor 12 can monitor the placement information in the status information transmitted by the label paper 4. Thereby improving the monitoring capability of the device and improving the product quality.

Further, can also set up the hollow-out part or the bellying of bellying monitor monitoring trademark paper 4 and whether exist, and then ensure that trademark paper 4 puts correctly to and whether trademark paper 4 is complete. For example, a photoelectric sensor may be disposed above the conveyor belt 1, and the difference of the reflection signals received by the photoelectric sensor is collected to determine whether a hollow portion passes through. Therefore, whether the convex part or the hollow part of the label paper 4 exists or not can be monitored, the generation of inferior label paper is avoided, and the reliability of the device is improved.

Although some specific embodiments of the present application have been described in detail by way of example, it should be understood by those skilled in the art that the above examples are for illustrative purposes only and are not intended to limit the scope of the present application. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the present application. The scope of the application is defined by the appended claims.