CN219306026U - Online gluing detection system for filter stick forming paper - Google Patents

Abstract

The application provides an online gluing detection system for filter rod forming paper, which comprises an image acquisition device for acquiring a gluing state image of the filter rod forming paper, a speed acquisition device for acquiring a production speed of a filter rod forming machine, a control device for performing data processing based on the gluing state image of the filter rod forming paper and the production speed of the filter rod forming machine and controlling the running state of the filter rod forming machine, a removing device for automatically removing defective filter rods, an alarm device for warning a gluing fault condition of the filter rods and a stopping device for sending a stopping instruction; the image acquisition device, the speed acquisition device, the removing device, the alarm device and the stopping device are all connected with the control device. The utility model can monitor and display the gluing state of the internal gluing and the lap adhesive line and the distance between the lap adhesive line and the edge of paper in real time on line, eliminates unqualified products, alarms and stops, and effectively ensures the gluing lattice rate on the filter stick.

Description

Online gluing detection system for filter stick forming paper

Technical Field

The application belongs to the technical field of tobacco equipment, relates to a filter rod forming machine, and in particular relates to an online gluing detection system for filter rod forming paper.

Background

At present, filter stick forming machines KDF4, KDF3 and KDF2 used in domestic tobacco factories have the problem of undetectable cold and hot glue gluing. If the cold and hot glue pump of the filter stick forming machine fails, the cold glue (latex) has poor flowing property or quality problem. At this time, whether the glue gun is uniformly applied or not is required to be observed by naked eyes of operators. However, inspection by human force makes it difficult for operators to find gum quality problems in time. This can lead to the flow of off-grade product into the on-grade product, bringing the product with quality problems into the market, and intangibly causing the product to present a quality hazard. Consumers are prone to physical health hazards in using unacceptable products.

In addition, when the filter rod lacks the internal glue (cold glue), the filter rod forming paper is easy to fall off from the tow, so that the filter rod emission pipeline is blocked, or the cigarette making machine cannot finish forming in the process of rolling a finished cigarette product, so that waste cigarettes are generated, the filter rod production cost is increased, the consumption is increased, and the manual maintenance cost is increased in an intangible way, so that the trouble is brought to the production staff of a cigarette factory. Therefore, a technical problem of how to realize online monitoring of the glue spreading quality of the filter rod by using a machine is needed to be solved.

Disclosure of Invention

The utility model aims to provide an online gluing detection system for filter stick forming paper, which aims to solve the technical problems.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

in a first aspect, the present application provides an online glue spreading detection system for filter rod forming paper, including an image acquisition device for acquiring a glue spreading state image of the filter rod forming paper, a speed acquisition device for acquiring a production speed of a filter rod forming machine, a control device for performing data processing based on the glue spreading state image of the filter rod forming paper and the production speed of the filter rod forming machine and controlling an operation state of the filter rod forming machine, a removing device for automatically removing defective filter rods, an alarm device for warning a glue spreading fault condition of the filter rod, and a stopping device for sending a stop command; the image acquisition device, the speed acquisition device, the removing device, the alarm device and the stopping device are all connected with the control device.

In the application, the image acquisition device can acquire the coating state image of the filter rod forming paper in real time and transmit the coating state image to the control device. The control device can judge whether the gluing of the filter stick forming paper is problematic or not by combining the production speed of the filter stick forming machine acquired by the speed acquisition device, so as to output control signals to the rejecting device, the alarm device and the stopping device. The system can monitor the gluing quality of the filter stick forming machine in real time, effectively overcomes the defect that the gluing condition can only be observed by naked eyes of operators in the traditional mode, has high precision and quick response time, ensures the gluing lattice rate on the filter stick, and avoids threat to the health and safety of consumers caused by the fact that unqualified products flow into the market.

In one implementation of the first aspect, the image acquisition device includes an industrial high-speed line scan camera.

In this implementation mode, the whole cross section of shaping paper can be scanned at a high speed to the camera is swept to industry high speed line to can carry out real-time supervision and demonstration to the shaping paper of producing in the production process of filter rod shaping paper, and the camera is swept to industry high speed line has image data transmission and high speed camera's self-diagnosis and alarming function, when high speed camera is in the off-grid state, the warning suggestion can be reported to the police, and this system can automatic reconnection camera, thereby effectively guarantee that the unqualified product of rubber coating can in time be handled.

In an implementation manner of the first aspect, the speed acquisition device for acquiring a production speed of the filter rod forming machine includes a high-speed sensor.

In the implementation mode, the production speed of the filter rod forming machine can be acquired through the high-speed sensor, and if abnormal conditions exist in parameters of the filter rod forming machine in the production process, unqualified products can be removed more accurately.

In one implementation manner of the first aspect, the control device includes a programmable touch industrial personal computer.

In the implementation mode, the programmable touch industrial control computer can display the colloid forming state of the filter rod in real time. After receiving the image collected by the image acquisition device, each glue line on the forming paper is detected through the data processing module, the real-time detection range comprises continuity and rubberizing conditions of the lap adhesive and the center line adhesive, positions of the lap adhesive and the center line adhesive on the forming paper, distances between the lap adhesive line and the center line adhesive and edges of paper, widths of each glue line, and control instructions are sent out, reject and alarm are carried out on unqualified products, even the filter stick forming machine can stop working, waste cigarettes are effectively avoided, and production cost and maintenance cost of cigarettes are reduced.

In one implementation manner of the first aspect, the programmable touch industrial personal computer includes a processor chip for performing recognition processing on an image, a display screen for dynamically displaying a monitoring result, a signal output interface for outputting rejection, alarm and shutdown signals, and a memory for automatically storing glue breaking time and rejection time.

In the implementation mode, the processor chip can process the image and detect each glue line on the forming paper in real time. The display screen can form the real-time gluing condition of the paper width of the formed paper. The width of the glue line can be automatically identified and displayed in real time, and when the glue line is absent or discontinuous, the glue line is displayed on the interface, so that an operator can clearly see the coating condition. The signal output interface can timely send instructions to the removing device, the alarm device and the parking device, and the gluing lattice rate on the filter rod is guaranteed. The storage device has a data storage function, and when the glue line is broken and removed, the system can automatically store the time of breaking the glue and the time of removing the glue, so that the later data acquisition is facilitated.

In one implementation manner of the first aspect, the rejecting device includes a rejecting drum, a drum rejecting valve, and a first relay circuit, the drum rejecting valve is disposed in a start-stop control loop of the rejecting drum, and an opening-closing control loop of the drum rejecting valve is connected to the control device through the first relay circuit.

In this implementation, the rejection device includes a rejection drum, a drum rejection valve, and a first relay circuit. The opening and closing control loop of the drum wheel rejecting valve is connected to the control device through a first relay circuit, so that the communication between the control device and the rejecting device is realized. When the control device sends out a rejection signal, the drum wheel rejection valve is closed, and the rejection drum wheel starts to work. Therefore, when the control device detects that the stranded wires have quality problems and sends out a rejection signal, the rejection device can respond in time, and rejection of unqualified products is ensured.

In one implementation manner of the first aspect, the first relay circuit includes a first relay coil and a first relay normally open contact, the first relay normally open contact is connected in series in an opening and closing control loop of the drum reject valve, and the first relay coil is connected with the control device.

In this implementation mode, the first relay circuit still includes first relay coil and first relay normally open contact, and first relay normally open contact establishes ties in the open-close control loop of drum rejection valve. After setting the parameters, the filter rod forming machine will start to work. At this time, the normally open contact is connected in series in the open-close control loop of the drum wheel rejecting valve, and only when the rejecting signal is output by the control device, the normally open contact is closed, and the rejecting device is operated, so that unqualified products are rejected in time. And if the control device does not detect unqualified products, the rejecting device can pause operation, so that smooth production of the filter rod is ensured.

In one implementation manner of the first aspect, the stopping device includes a second relay circuit, and the start-stop control loop of the filter rod forming machine is connected to the control device through the second relay circuit.

In the implementation mode, a start-stop control loop of the filter rod forming machine is connected to the control device through a second relay circuit. The stopping signal output by the control device can be output to a start-stop control loop of the filter rod forming machine through the second relay circuit, so that the stop control of the filter rod forming machine is realized.

In an implementation manner of the first aspect, the second relay circuit includes a second relay coil and a second relay normally-closed contact, the second relay normally-closed contact is connected in series in a start-stop control loop of the filter rod forming machine, and the second relay coil is connected with the control device.

In this implementation mode, the second relay circuit includes the second relay normally closed contact, and this normally closed contact establishes ties in the start-stop control circuit of filter rod make-up machine. When the control device sends out a shutdown signal, the second relay coil is electrified, the normally closed contact of the second relay is opened, the start-stop control loop of the filter rod forming machine is disconnected, and the filter rod forming machine is stopped, so that the control device can timely control the filter rod forming machine to stop when the failure rate is found to be too high, and the production cost is reduced.

In an implementation form of the first aspect, the alarm device comprises an audible and visual alarm.

In this implementation mode, when finding filter rod shaping paper rubber coating trouble, audible and visual alarm will warn operating personnel, in time pay attention to the trouble, reduction in production cost.

The beneficial effects that the online rubber coating detecting system of filter rod forming paper that this application provided include, but are not limited to:

1. the glue coating quality of the filter stick forming paper is monitored in real time, the defect that the glue coating condition can only be observed by naked eyes of operators in the traditional mode is effectively overcome, the precision is high, the response time is quick, the gluing lattice rate on the filter stick is guaranteed, and the threat of unqualified products flowing into the market to the health and safety of consumers is avoided.

2. The system can reject and alarm unqualified products, even can stop the filter stick forming machine, effectively avoids the generation of waste cigarettes, and reduces the production cost and maintenance cost of cigarettes.

3. The operation is simple and convenient, the whole machine is only provided with a power switch, no other operation is needed, and the intelligent degree is high. Can be suitable for severe environments such as high temperature, dust and the like.

4. The system has the data storage function, and when the glue line is broken and removed, the system can automatically store the time of breaking and the time of removing so as to facilitate the later data acquisition.

Drawings

Fig. 1 is a schematic structural diagram of an online glue spreading detection system for filter rod forming paper according to an embodiment of the present application.

Fig. 2 is a schematic diagram illustrating an operation state of the image capturing device according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a control device according to an embodiment of the present application.

Fig. 4 is a schematic diagram showing connection between the control device and the removing device in the embodiment of the present application.

Fig. 5 shows a schematic diagram of the connection of the control device, the stop device and the filter rod making machine according to the embodiment of the present application.

Description of element reference numerals

1. Image acquisition device

10. Industrial high-speed line scanning camera

2. Speed acquisition device

3. Control device

30. Programmable touch industrial personal computer

301. Processor chip

302. Display screen

303. Memory device

304. Output interface for eliminating signal

305. Alarm signal output interface

306. Output interface for stop signal

4. Rejecting device

40. Rejecting drum wheel

41. Drum wheel rejecting valve

5. Alarm device

50. Audible and visual alarm

6. Parking device

K1 First relay circuit

K2 Second relay circuit

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions in the embodiments of the present application will be described in more detail below with reference to the accompanying drawings in the preferred embodiments of the present application. In the drawings, the same or similar reference numerals refer to the same or similar components or components having the same or similar functions throughout. The described embodiments are some, but not all, of the embodiments of the present application. The embodiments described below by referring to the drawings are exemplary and intended for the purpose of explaining the present application and are not to be construed as limiting the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Embodiments of the present application are described in detail below with reference to the accompanying drawings.

In the description of the present application, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be fixedly connected, or indirectly connected through intermediaries, for example, or may be in communication with each other between two elements or in an interaction relationship between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In the description of the present application, it should be understood that the terms "upper," "lower," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate an orientation or a positional relationship based on the drawings, which are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or display that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or display.

An on-line gluing detection system for filter rod forming paper according to an embodiment of the present application will be described in detail below with reference to fig. 1 to 5. It is noted that the following examples are merely for explaining the present application and are not to be construed as limiting the present application.

As shown in fig. 1, this embodiment provides an online glue spreading detection system for filter rod forming paper, including: the device comprises an image acquisition device 1 for acquiring a filter rod forming paper gluing state image, a speed acquisition device 2 for acquiring a filter rod forming machine production speed, a control device 3 for carrying out data processing based on the filter rod forming paper gluing state image and the filter rod forming machine production speed and controlling the running state of the filter rod forming machine, a removing device 4 for automatically removing defective filter rods, an alarm device 5 for warning the filter rod gluing fault condition and a stopping device 6 for sending a stopping command.

When the system is in operation, the image acquisition device 1 scans and detects the whole cross section of the filter stick forming paper, and the detection width is more than or equal to the width breadth of the filter stick forming paper. The forming paper produced by the filter rod forming machine is scanned line by line through the image acquisition device 1, image acquisition is completed to acquire information, and the acquired image information is transmitted to the control device 3. The control device 3 monitors the gluing quality of the filter rod forming paper and calculates the working running speed of the current filter rod forming machine by combining the speed collector 2. If abnormal conditions of all parameters are found, the control device 3 outputs a rejection signal to the rejection device 4, precisely rejects unqualified products, and outputs an alarm signal to the alarm device 5 for alarm. Meanwhile, the control device 3 displays abnormal conditions on the interface, and monitoring of unqualified gluing products is effectively achieved. When the rejecting time reaches the set parameters, the control device 3 outputs a stop signal to the stopping device 6, so that the continuous operation of the filter rod forming machine is stopped, the production of waste cigarettes is effectively avoided, and the production cost is reduced.

Wherein the image acquisition device 1 comprises an industrial high-speed line-scan camera 10. As shown in fig. 2, the industrial high-speed line scanning camera 10 scans the conditions of the lap adhesive and the center line adhesive of the filter rod molding paper produced by the filter rod molding machine, and transmits image scanning data to the control device 3.

Wherein the speed acquisition device 2 comprises a high-speed CMOS image sensor. The production speed of the filter stick forming machine is acquired through the high-speed CMOS image sensor, and if abnormal conditions of parameters of the filter stick forming machine in the production process are found, unqualified products can be removed more accurately.

Wherein the control device 3 comprises a programmable touch industrial personal computer 30. As shown in fig. 3, the programmable touch industrial personal computer 30 includes a processor chip 301 for identifying and processing images, a display screen 302 for dynamically displaying monitoring results, a memory 303 for automatically storing glue breaking time and rejection time, a signal output interface 304 for outputting rejection signals, an alarm signal output interface 305, and an output interface 306 for outputting stop signals.

After receiving the image information transmitted by the image acquisition device 1, the programmable touch industrial personal computer 30 performs recognition processing on the image through the processor chip 301, and specifically detects each glue line on the filter stick forming paper, wherein the real-time detection range comprises continuity and sizing conditions of the lap adhesive and the center line adhesive, positions of the lap adhesive and the center line adhesive on the forming paper, distances between the lap adhesive line and the center line adhesive and edges of paper, and widths of each glue line. The programmable touch industrial personal computer 30 reacts according to the detected gluing conditions of the lap adhesive and the center line adhesive. For example, when the glue line is found to be absent or discontinuous, the programmable touch industrial personal computer 30 will display red color on the display screen 302 in real time, and make control reaction through the output interface 304 for outputting the rejection signal, the output interface 305 for the alarm signal, and the output interface 306 for the stop signal. The memory 303 has a data storage function, and when the glue line is broken and removed, the system automatically stores the time of breaking and the time of removing, so as to collect the data in the later period.

As shown in fig. 4, the rejecting device 4 includes a reject drum 40, a drum reject valve 41 and a first relay circuit K1. The drum reject valve 41 is provided in the on-off control circuit of the reject drum 40, the on-off control circuit of the drum reject valve 41 being connected to the control device through a first relay circuit K1. The first relay circuit K1 includes a first relay coil and a first relay normally open contact. The first relay normally open contact is connected in series in the opening and closing control loop of the drum wheel reject valve 41, and the first relay coil is connected with the programmable touch industrial personal computer 30.

When the programmable touch industrial personal computer 30 gives out a rejection control signal, the first relay coil is electrified, the normally open contact of the first relay is closed, the opening and closing control loop of the drum rejection valve 41 is conducted, the drum rejection valve 41 is closed, the start and stop control loop of the rejection drum 40 is conducted, the rejection drum 40 acts, the defective products of sizing are rejected, and the qualified rate of sizing production is ensured.

Alternatively, the rejection response time may be set to 80ms to 100ms, and the duration of the rejection may be set.

Alternatively, a manual contact switch may be provided in the first relay circuit K1. The operator can manually disconnect the circuit, the first relay coil is not electrified, and the opening and closing control loop of the drum wheel rejection valve 41 cannot be conducted, so that the programmable touch industrial control computer 30 cannot output a rejection signal. Once the glue coating quality of the filter rod forming paper is abnormal, the programmable touch industrial personal computer 30 only outputs an alarm signal through the output interface 305 of the alarm signal, and the filter rod forming machine continues to work.

It should be noted that, for the two pieces of equipment with center line glue, when one piece of glue is abnormal, the programmable touch industrial personal computer 30 only outputs an alarm signal; when two glue lines are abnormal at the same time, the programmable touch industrial personal computer 30 outputs an alarm signal and a rejection signal.

The alarm device 5 is preferably an audible and visual alarm 50, and when the glue coating quality is abnormal, for example, no filter stick forming paper is used when the filter stick forming machine is started, the audible and visual alarm 50 flashes a red light and the buzzer sounds when the glue is broken or the detection range of the system is blocked by dust. When the filter rod forming machine is in a standby state or a shutdown function output state, the audible and visual alarm 50 flashes a yellow light, so that an operator can clearly judge the running condition of the current machine so as to perform processing in time.

As shown in fig. 5, the stopping device 6 comprises a second relay circuit K2, and a start-stop control loop of the filter rod forming machine is connected to the programmable touch industrial control computer 30 through the second relay circuit K2. The second relay loop K2 comprises a second relay coil and a second relay normally-closed contact, the second relay normally-closed contact is connected in series in a start-stop control loop of the filter rod forming machine, and the second relay coil is connected with the programmable touch industrial personal computer 30.

When the drum reject valve 41 is closed for a set shut down response time, the programmable touch screen 30 will send a shut down signal to shut down the equipment. At the moment, the second relay coil is electrified, the normally closed contact of the second relay is opened, the start-stop control loop of the filter rod forming machine is disconnected, and the filter rod forming machine is stopped, so that when the filter rod forming machine fails, the filter rod forming machine can be effectively stopped, and the production cost is reduced.

Alternatively, the downtime response time may be set to be 1s or less.

Alternatively, a manual contact switch may be provided in the second relay circuit K2. The operator can manually close the circuit to ensure that the programmable touch industrial personal computer 30 does not output a stop signal, the second relay coil is not electrified, and the start-stop control loop of the filter rod forming machine is closed. Once the glue quality of the filter rod forming paper is abnormal, the programmable touch industrial personal computer 30 only outputs and outputs the reject signal and the alarm signal through the reject signal output interface 304 and the alarm signal output interface 305 respectively, but the filter rod forming machine is not stopped to continue to work.

The online gluing detection system for the filter rod forming paper acquires image information of the filter rod forming paper through the image acquisition device and transmits the image information to the control device. The control device processes the image and detects the gluing quality of the filter stick forming paper. When the gluing quality is found to be abnormal, the control device outputs a rejecting signal, an alarm signal and a stop signal to the rejecting device, the alarm device and the stop device respectively, so that unqualified products are rejected, the alarm is given out and even the filter stick forming machine stops working, thereby effectively avoiding the generation of waste cigarettes and reducing the production cost and the maintenance cost of cigarettes. The system can effectively monitor the gluing quality of the filter stick forming machine in real time, effectively overcomes the defect that the gluing condition can only be observed by naked eyes of operators in the traditional mode, has high precision and quick response time, ensures the gluing lattice rate on the filter stick, and avoids threat to the health and safety of consumers caused by the fact that unqualified products flow into the market.

The descriptions of the processes or structures corresponding to the drawings have emphasis, and the descriptions of other processes or structures may be referred to for the parts of a certain process or structure that are not described in detail.

The foregoing embodiments are merely illustrative of the principles of the present application and their effectiveness, and are not intended to limit the application. Modifications and variations may be made to the above-described embodiments by those of ordinary skill in the art without departing from the spirit and scope of the present application. Accordingly, it is intended that all equivalent modifications and variations which may be accomplished by persons skilled in the art without departing from the spirit and technical spirit of the disclosure be covered by the claims of this application.

Claims (10)

1. An on-line gluing detection system for filter stick forming paper, which is characterized by comprising the following components:

the image acquisition device is used for acquiring an image of the gluing state of the filter stick forming paper;

the speed acquisition device is used for acquiring the production speed of the filter stick forming machine;

the control device is used for processing data based on the glue spreading state image of the filter rod forming paper and the production speed of the filter rod forming machine and controlling the running state of the filter rod forming machine;

the alarm device is used for automatically removing defective filter sticks and alarming the gel forming fault condition of the filter sticks;

the parking device is used for sending out a parking instruction;

the image acquisition device, the speed acquisition device, the removing device, the alarm device and the stopping device are all connected with the control device.

2. An on-line gluing detection system for filter rod forming paper according to claim 1, wherein the rejecting device comprises a rejecting drum, a drum rejecting valve and a first relay circuit, the drum rejecting valve is arranged in a start-stop control loop of the rejecting drum, and an opening-closing control loop of the drum rejecting valve is connected to the control device through the first relay circuit.

3. The on-line gluing detection system for filter rod forming paper according to claim 2, wherein the first relay circuit comprises a first relay coil and a first relay normally open contact, the first relay normally open contact is connected in series in an opening and closing control loop of the drum reject valve, and the first relay coil is connected with the control device.

4. An on-line filter rod forming paper gluing detection system according to claim 1, wherein the stopping device comprises a second relay circuit, and the start-stop control loop of the filter rod forming machine is connected to the control device through the second relay circuit.

5. The on-line gluing detection system for filter rod forming paper according to claim 4, wherein the second relay circuit comprises a second relay coil and a second relay normally-closed contact, the second relay normally-closed contact is connected in series in a start-stop control loop of the filter rod forming machine, and the second relay coil is connected with the control device.

6. The on-line gluing detection system for filter rod forming paper according to claim 1, the image acquisition device is characterized by comprising an industrial high-speed line scanning camera.

7. An on-line filter rod making paper gluing detection system according to claim 1, wherein the speed acquisition device for acquiring the production speed of the filter rod making machine comprises a high-speed sensor.

8. The on-line glue detection system for filter rod forming paper according to claim 1, wherein the control device comprises a programmable touch industrial control computer.

9. The on-line gluing detection system for filter rod forming paper according to claim 8, wherein the programmable touch industrial personal computer comprises a processor chip for identifying and processing images, a display screen for dynamically displaying monitoring results, a signal output interface for outputting signals of rejection, alarm and shutdown, and a memory for automatically storing glue breaking time and rejection time.

10. An on-line filter rod forming paper gluing detection system according to any one of claims 1-9, wherein the alarm device comprises an audible and visual alarm.

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