CN211282382U - Filter rod box warehouse-in and warehouse-out control system - Google Patents

Abstract

The utility model provides a filter rod box warehouse entry and exit control system relates to tobacco logistics technical field, and the system includes: a first radio frequency identification reader; the first photoelectric switch is used for sending a first detection signal when the solid filter stick box coming out of the forming machine is detected; a second radio frequency identification reader; the second photoelectric switch is used for sending a second detection signal under the condition that the solid filter stick box coming out of the warehouse is detected; the controller is used for triggering the first radio frequency identification reader-writer to write radio frequency identification information into the solid filter stick box from the forming machine under the condition of receiving the first detection signal and controlling the solid filter stick box to enter the warehouse; under the condition of receiving a second detection signal, triggering a second radio frequency identification reader-writer to read the radio frequency identification information of the solid filter stick box from the warehouse; and the warehouse control system is used for triggering the controller to control the solid filter stick boxes coming out of the warehouse to enter the transmitter under the condition that the read radio frequency identification information is consistent with the expected radio frequency identification information.

Description

Filter rod box warehouse-in and warehouse-out control system

Technical Field

The disclosure relates to the technical field of tobacco logistics, in particular to a filter rod box warehousing and warehousing control system.

Background

Currently, in the field of tobacco logistics, various information relating to filter rod boxes can be managed by a computer system. The computer system establishes a uniform standard for storage according to the attribute of the information, so that the information is standardized and normalized.

In the related technology, when the filter rod box is put in and out of a warehouse, the bar code needs to be scanned manually, reading is inconvenient, the identification speed is slow, and the efficiency of putting in and out of the warehouse is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the embodiments of the present disclosure propose the following solutions.

According to an aspect of the disclosed embodiment, there is provided a filter rod box in-out control system, including: the first radio frequency identification reader-writer is arranged on a first platform between the forming machine and the warehouse; the first photoelectric switch is arranged on the first station between the forming machine and the first radio frequency identification reader-writer and used for sending a first detection signal under the condition that the solid filter stick box coming out of the forming machine is detected; a second radio frequency identification reader disposed on a second station between the transmitter and the warehouse; the second photoelectric switch is arranged on the second platform between the warehouse and the second radio frequency identification reader-writer and used for sending a second detection signal under the condition that the solid filter stick box coming out of the warehouse is detected; the controller is electrically connected with the first radio frequency identification reader-writer, the first photoelectric switch, the second radio frequency identification reader-writer and the second photoelectric switch, and is used for triggering the first radio frequency identification reader-writer to write radio frequency identification information into the solid filter stick box from the forming machine under the condition of receiving the first detection signal and controlling the solid filter stick box with the radio frequency identification information written into to enter the warehouse; under the condition of receiving the second detection signal, triggering the second radio frequency identification reader-writer to read the radio frequency identification information of the solid filter stick box from the warehouse; and the warehouse control system is electrically connected with the second radio frequency identification reader-writer and the controller and is used for triggering the controller to control the solid filter stick box coming out of the warehouse to enter the transmitter under the condition that the read radio frequency identification information is consistent with the expected radio frequency identification information.

In some embodiments, the system further comprises: a third photoelectric switch arranged on a third station between the forming machine and the warehouse and used for sending a third detection signal to the controller under the condition that no empty filter stick box exists on the third station; a fourth photoelectric switch, arranged on a fourth station between the forming machine and the third station, for sending a fourth detection signal to the controller in case there is no empty filter rod box on the fourth station; the controller sends an empty filter stick box ex-warehouse application signal to the warehouse control system under the condition of receiving the third detection signal; in the event that the fourth detection signal is received, conveying the empty filter rod magazine on the third station to the fourth station and further into the forming machine; the warehouse control system is also used for applying for an empty filter stick box ex-warehouse task to the warehouse management system under the condition of receiving the empty filter stick box ex-warehouse application signal; under the condition of receiving the empty filter stick box ex-warehouse response signal, sending an empty filter stick box ex-warehouse signal to a stacker; and the stacker is used for taking out the empty filter stick boxes from the warehouse and placing the empty filter stick boxes at the third platform under the condition of receiving the empty filter stick box delivery signals.

In some embodiments, the system further comprises: a fifth photoelectric switch, provided at a fifth station between said first station and said warehouse, for sending a fifth detection signal to said controller in case the number of solid filter rod magazines at said fifth station reaches a predetermined number; the controller is used for sending a solid filter stick box warehousing application signal to the warehouse control system under the condition of receiving the fifth detection signal; the warehouse control system is also used for applying for a solid filter stick box warehousing task to the warehouse management system under the condition of receiving the solid filter stick box warehousing application signal; sending a solid filter stick box warehousing signal to the stacker under the condition of receiving a solid filter stick box warehousing response signal; and the stacker is also used for transferring the solid filter stick boxes on the fifth platform into the warehouse under the condition of receiving the solid filter stick box warehousing signals.

In some embodiments, the system further comprises: a sixth photoelectric switch, provided at a sixth station between the second station and the warehouse, for sending a sixth detection signal to the controller in the absence of a solid filter rod box at the sixth station; the controller is further configured to send a solid filter stick box ex-warehouse application signal to the warehouse control system to apply for ex-warehouse of the solid filter stick box in which the expected radio frequency identification information is written, under the condition that the sixth detection signal is received; the warehouse control system is also used for applying for the solid filter stick box ex-warehouse task to the warehouse management system under the condition of receiving the solid filter stick box ex-warehouse application signal; under the condition of receiving the solid filter stick box ex-warehouse response signal, sending a solid filter stick box ex-warehouse signal to a stacker; and the stacker is used for transferring the solid filter stick box out of the warehouse and placing the solid filter stick box at the sixth platform under the condition of receiving the solid filter stick box out-warehouse signal.

In some embodiments, the system further comprises: a seventh photoelectric switch, arranged at a seventh station between the transmitter and the warehouse, for sending a seventh detection signal to the controller when the number of empty filter rod boxes coming out of the transmitter at the seventh station reaches a preset number; the controller is used for sending an empty filter rod box warehousing application signal to the warehouse control system under the condition of receiving the seventh detection signal; the warehouse control system is also used for applying for an empty filter rod box warehousing task to the warehouse management system under the condition of receiving the empty filter rod box warehousing application signal; under the condition of receiving an empty filter stick box warehousing response signal, sending an empty filter stick box warehousing signal to the stacker; and the stacker is also used for transferring the empty filter stick boxes on the seventh platform into the warehouse under the condition of receiving the empty filter stick box warehousing signal.

In some embodiments, the system further comprises: the first indicator light is electrically connected with the controller; the controller is also used for controlling the first indicator light to be on under the condition that the first radio frequency identification reader-writer fails to write the radio frequency identification information into the solid filter stick box from the forming machine.

In some embodiments, the system further comprises: the second indicator light is electrically connected with the controller; the controller is also used for controlling the second indicating lamp to be lightened under the condition that the read radio frequency identification information is inconsistent with the expected radio frequency identification information.

In some embodiments, the radio frequency identification information comprises a filter stick brand.

In some embodiments, the first, second, third, fourth, and fifth optoelectronic switches comprise opposed-emission optoelectronic switches.

In some embodiments, the sixth and seventh opto-electronic switches comprise opposed opto-electronic switches.

In the embodiment of the disclosure, the filter rod box in-out warehouse control system comprises two radio frequency identification readers. The solid filter rod box coming out of the forming machine is written with radio frequency identification information before entering the warehouse, and the solid filter rod box coming out of the warehouse is read with radio frequency identification information before entering the transmitter. The filter rod box in-out warehouse control system does not need to scan bar codes manually, and the in-out warehouse efficiency of the filter rod box can be improved. In addition, the accuracy of the radio frequency identification information of the filter stick box entering and exiting the warehouse can be ensured, and the risk of mixing the filter stick marks is avoided.

The technical solution of the present disclosure is further described in detail by the accompanying drawings and examples.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure 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, it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and other drawings can be obtained by those skilled in the art without creative efforts.

Figure 1 is a schematic illustration of a filter rod magazine warehousing according to some embodiments of the present disclosure;

figure 2 is a schematic diagram of the construction of a filter rod magazine in-out control system according to some embodiments of the present disclosure;

figure 3 is a schematic diagram of a filter rod magazine in-out control system according to further embodiments of the present disclosure;

figure 4 is a schematic diagram of a filter rod magazine in-out control system according to further embodiments of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

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 disclosure unless specifically stated otherwise.

Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description.

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.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

Figure 1 is a schematic illustration of a filter rod magazine warehousing according to some embodiments of the present disclosure. Figure 2 is a schematic diagram of a filter rod magazine in-out control system according to some embodiments of the present disclosure. The filter rod box in-out control system is described below with reference to figures 1 and 2.

As shown in fig. 2, the filter rod box in-out control system includes a first radio frequency identification reader-writer 11, a first photoelectric switch 12, a second radio frequency identification reader-writer 13, a second photoelectric switch 14, a controller 15 (e.g., a Programmable Logic Controller (PLC)), and a warehouse control system 16.

The first rfid reader 11 is disposed at the first station S1 between the molding machine and the warehouse.

A first opto-electronic switch 12 is provided at the first station S1 between the moulding machine and the first rfid reader 11 for sending a first detection signal to the controller 15 in the event that a solid filter rod magazine exiting the moulding machine is detected.

The second rfid reader 13 is disposed at the second station S2 between the transmitter and the warehouse.

A second opto-electronic switch 14 is provided at the second station S2 between the store and the second rfid reader 13 for sending a second detection signal to the controller 15 in the event that a solid filter rod magazine is detected as coming out of the store.

The controller 15 is electrically connected to the first rfid reader/writer 11, the first photoelectric switch 12, the second rfid reader/writer 13, and the second photoelectric switch 14. The controller 15 is configured to trigger the first radio frequency identification reader-writer 11 to write radio frequency identification information into the solid filter stick box from the forming machine under the condition of receiving the first detection signal sent by the first photoelectric switch 12, and control the solid filter stick box with the radio frequency identification information written into to enter the warehouse; and under the condition of receiving a second detection signal sent by the second photoelectric switch 14, triggering the second radio frequency identification reader-writer 13 to read the radio frequency identification information of the solid filter stick box coming out of the warehouse. For example, the radio frequency identification information may include a filter stick brand. In some implementations, the rfid information may also include production time, filter rod box type (e.g., empty or real), and the like.

In some embodiments, the controller 15, upon receiving the first detection signal sent by the first optoelectronic switch 12, may also control the fixing device to fix the solid filter rod magazine exiting the forming machine, and to write the rfid information thereto. Similarly, the controller 15, in the case of receiving the second detection signal sent by the second photoelectric switch 14, may also control the fixing device to fix the solid filter rod box coming out of the warehouse, and then read its rfid information. For example, the controller 15 may fix the solid filter rod magazine by controlling the air cylinder so that the baffle plates.

The warehouse control system 16 is electrically connected to the second rfid reader 13, and is configured to trigger the controller 15 to control the solid filter rod box coming out of the warehouse to enter the transmitter when the rfid information read by the second rfid reader 13 is consistent with the expected rfid information.

In the above embodiment, the filter rod box in-out control system includes two radio frequency identification readers. The solid filter rod box coming out of the forming machine is written with radio frequency identification information before entering the warehouse, and the solid filter rod box coming out of the warehouse is read with radio frequency identification information before entering the transmitter. The filter rod box in-out warehouse control system does not need to scan bar codes manually, and the in-out warehouse efficiency of the filter rod box can be improved. In addition, the accuracy of the radio frequency identification information of the filter stick box entering and exiting the warehouse can be ensured, and the risk of mixing the filter stick marks is avoided.

In some embodiments, the filter rod magazine in-out control system may further comprise a first indicator light in electrical communication with the controller 15. The controller 15 is also configured to control the first indicator light to be turned on when the first rfid reader/writer 11 fails to write the rfid information into the solid filter rod magazine from the molding machine. For example, if the first rfid reader/writer 11 fails to write the rfid information into the solid filter rod box from the molding machine, a write failure signal may be sent to the controller 15, and the controller 15 may control the first indicator light to be turned on. Therefore, the worker can be reminded to replace the radio frequency identification code carrier on the solid filter stick box, and then the controller 15 can trigger the first radio frequency identification reader-writer 11 to write the radio frequency identification information into the solid filter stick box again.

In some embodiments, the filter rod magazine in-out control system may further comprise a second indicator light in electrical communication with the controller 15. The controller 15 is also used for controlling the second indicator light to be turned on in case the read rfid information is not identical to the desired rfid information. For example, in the case that the rfid information read by the second rfid reader 13 is inconsistent with the expected rfid information, the warehouse control system 16 may send a reading failure signal to the controller 15, and the controller 15 may control the second indicator light to be turned on. Therefore, the working personnel can be reminded to take out the solid filter stick box.

Figure 3 is a schematic diagram of a filter rod magazine in-out control system according to further embodiments of the present disclosure.

As shown in fig. 3, the filter rod box in-out control system further includes a third photoelectric switch 17 and a fourth photoelectric switch 18.

A third photoelectric switch 17 is provided at the third station S3 between the moulding machine and the store for sending a third detection signal to the controller 15 in the event that there is no empty filter rod magazine at the third station S3.

A fourth opto-electronic switch 18 is provided at the fourth station S4 between the former and the third station S3 for sending a fourth detection signal to the controller 15 in the event that there is no empty filter rod magazine at the fourth station S4.

The controller 15 is further configured to send an empty filter rod box ex-warehouse application signal to the warehouse control system 16 in the case of receiving a third detection signal sent by the third photoelectric switch 17; on receipt of the fourth detection signal sent by the fourth photoelectric switch 18, the empty filter rod magazine from the third station S3 is transferred to the fourth station S4 and into the forming machine. For example, the controller 15 may control the conveyor to transport empty filter rod magazines from the third station S3 to the fourth station S4 and into the former. It will be appreciated that the third station S3 is arranged to temporarily store empty filter cartridges, and that empty filter cartridges at the third station S3 may be transferred to the fourth station S4 in good time without empty filter cartridges at the fourth station S4.

The warehouse control system 16 is also used for applying for an empty filter stick box ex-warehouse task to the warehouse management system 19 under the condition of receiving an empty filter stick box ex-warehouse application signal sent by the controller 15; and when receiving an empty filter rod box delivery response signal returned by the warehouse management system 19, sending an empty filter rod box delivery signal to the stacker 20. Here, the warehouse management system 19 may preset a filter rod brand produced by the forming machine, and may instruct the stacker 20 to dispatch an empty filter rod box of the brand out of the warehouse in a case of receiving an empty filter rod box ex-warehouse task.

The stacker 20 is arranged to retrieve an empty filter rod box from the store and place it at the third station S3 in the event that an empty filter rod box out-of-store signal is received. In some embodiments, after placing an empty filter rod box at the third station S3, the third opto-electronic switch 17 can detect the empty filter rod box and notify the controller 15, and the warehouse control system 16, by the controller 15, to control the stacker 20 to stop placing the empty filter rod box.

In the above embodiment, by providing the third photoelectric switch 17 at the third station S3 and the fourth photoelectric switch 18 at the fourth station S4, the empty filter rod magazine can be replenished to the forming machine in a timely manner.

In some embodiments, referring to figure 3, the filter rod magazine in-out control system may further comprise a fifth opto-electronic switch 21.

A fifth opto-electronic switch 21 is provided at the fifth station S5 between the first station S1 and the warehouse for sending a fifth detection signal to the controller 15 in the event that the number of solid filter rod magazines at the fifth station S5 reaches a predetermined number.

The controller 15 is further configured to send a solid filter rod magazine warehousing application signal to the warehouse control system 16 upon receiving the fifth detection signal sent by the fifth photoelectric switch 21.

The warehouse control system 16 is also used for applying for a solid filter stick box warehousing task to the warehouse management system 19 under the condition of receiving the solid filter stick box warehousing application signal sent by the controller 15; and sends a real filter stick box warehousing signal to the stacker 19 under the condition of receiving the real filter stick box warehousing response signal returned by the warehouse management system 19.

The stacker 19 is also arranged to load the solid filter rod magazines from the fifth station S5 into storage on receipt of a solid filter rod magazine stocking signal. For example, the solid filter rod magazine stocking application signal may carry station information for the fifth station S5, such as the filter rod magazine type (solid filter rod magazine or empty filter rod magazine), the destination address (i.e. the fifth station), the number of filter rod magazines, etc. In this way, the warehouse management system 19 may instruct the stacker 19 to load the solid filter rod boxes at the fifth station S5 into the warehouse.

In the above embodiment, by providing the fifth photoelectric switch 21 at the fifth station S5, the solid filter rod magazine of the fifth station S5 can be immediately taken into the warehouse in the case where the number of solid filter rod magazines reaches the predetermined number.

Figure 4 is a schematic diagram of a filter rod magazine in-out control system according to further embodiments of the present disclosure.

In contrast to figure 2, the filter rod magazine in-out control system shown in figure 4 may also include a sixth opto-electronic switch 22.

A sixth opto-electronic switch 22 is provided at the sixth station S6 between the second station S2 and the store for sending a sixth detection signal to the controller 15 in the absence of a solid filter rod magazine at the sixth station S6.

The controller 15 is also configured to send a solid filter rod box ex-warehouse application signal to the warehouse control system 16 in response to receiving the sixth detection signal sent by the sixth photoelectric switch 22, so as to apply for the solid filter rod box ex-warehouse in which the desired radio frequency identification information is written.

The warehouse control system 16 is also used for applying for the solid filter stick box ex-warehouse task to the warehouse management system 19 under the condition of receiving the solid filter stick box ex-warehouse application signal sent by the controller 15; and in the case of receiving the solid filter stick box delivery response signal returned by the warehouse management system 19, sending a solid filter stick box delivery signal to the stacker 20.

The stacker 20 is arranged to retrieve the solid filter rod box from the store and place it at the sixth station S6 on receipt of a solid filter rod box out-of-store signal. The solid filter rod box at the sixth station S6 may be temporarily stored and, in the absence of a solid filter rod box at the second station S2, may be delivered in time to the second station S2 for further entry into the launcher on the sixth station S6.

In the above embodiment, the emitter can be replenished with a solid filter rod magazine in a timely manner by providing the sixth electro-optical switch 22 at the sixth station S6.

In some embodiments, referring to figure 4, the filter rod magazine in-out control system further comprises a seventh opto-electronic switch 23.

A seventh photoelectric switch 23 is provided at the seventh station S7 between the transmitter and the store for sending a seventh detection signal to the controller 15 in the event that the number of empty filter rod magazines from the transmitter at the seventh station S7 reaches a preset number.

The controller 15 is configured to send an empty filter rod magazine stocking application signal to the warehouse control system 16 when receiving the seventh detection signal sent by the seventh photoelectric switch 23.

The warehouse control system 16 is also used for applying for an empty filter rod box warehousing task to the warehouse management system 19 under the condition of receiving the empty filter rod box warehousing application signal; and under the condition of receiving an empty filter rod box warehousing response signal returned by the warehouse management system 19, sending an empty filter rod box warehousing signal to the stacker 19.

The stacker 19 is also adapted to load the empty filter rod magazine at the seventh station S7 into the warehouse upon receipt of an empty filter rod magazine stocking signal sent by the warehouse control system 16.

In the above embodiment, by providing the seventh photoelectric switch 23 at the seventh station S7, in the event that the number of solid filter rod magazines reaches the predetermined number, the empty filter rod magazines at the seventh station S7 can be immediately taken into the warehouse.

In some implementations, at least one of the first, second, third, fourth, and fifth opto- electronic switches 12, 14, 17, 18, 20, 21, and 22 may comprise a correlation opto-electronic switch.

As an example, the third station S3 and the fourth station S4 may be located at the same level (e.g., upper level), and the first station S4 and the fifth station S5 may be located at another level (e.g., lower level). In addition, an eighth station S8 may be disposed between the molding machine and the first station S1. The solid filter rod box from the former passes first to the eighth station S8 and then through the first station S1 to the fifth station S5.

As an example, the second station S2 and the sixth station S6 may be located at the same level (e.g., upper level), and the seventh station S7 may be located at another level (e.g., lower level). Additionally, a ninth station S9 may be disposed between the transmitter and the first station S1. The empty filter rod magazine from the transmitter proceeds first to the ninth station S9 and then to the seventh station S7.

Thus, various embodiments of the present disclosure have been described in detail. Some details that are well known in the art have not been described in order to avoid obscuring the concepts of the present disclosure. It will be fully apparent to those skilled in the art from the foregoing description how to practice the presently disclosed embodiments.

Although some specific embodiments of the present disclosure have been described in detail by way of example, it should be understood by those skilled in the art that the foregoing examples are for purposes of illustration only and are not intended to limit the scope of the present disclosure. It will be understood by those skilled in the art that various changes may be made in the above embodiments or equivalents may be substituted for elements thereof without departing from the scope and spirit of the present disclosure. The scope of the present disclosure is defined by the appended claims.

Claims (10)

1. A filter rod box warehouse-in and warehouse-out control system is characterized by comprising:

the first radio frequency identification reader-writer is arranged on a first platform between the forming machine and the warehouse;

the first photoelectric switch is arranged on the first station between the forming machine and the first radio frequency identification reader-writer and used for sending a first detection signal under the condition that the solid filter stick box coming out of the forming machine is detected;

a second radio frequency identification reader disposed on a second station between the transmitter and the warehouse;

the second photoelectric switch is arranged on the second platform between the warehouse and the second radio frequency identification reader-writer and used for sending a second detection signal under the condition that the solid filter stick box coming out of the warehouse is detected;

the controller is electrically connected with the first radio frequency identification reader-writer, the first photoelectric switch, the second radio frequency identification reader-writer and the second photoelectric switch, and is used for triggering the first radio frequency identification reader-writer to write radio frequency identification information into the solid filter stick box from the forming machine under the condition of receiving the first detection signal and controlling the solid filter stick box with the radio frequency identification information written into to enter the warehouse; under the condition of receiving the second detection signal, triggering the second radio frequency identification reader-writer to read the radio frequency identification information of the solid filter stick box from the warehouse; and

and the warehouse control system is electrically connected with the second radio frequency identification reader-writer and the controller and is used for triggering the controller to control the solid filter stick box coming out of the warehouse to enter the transmitter under the condition that the read radio frequency identification information is consistent with the expected radio frequency identification information.

2. The system of claim 1, further comprising:

a third photoelectric switch arranged on a third station between the forming machine and the warehouse and used for sending a third detection signal to the controller under the condition that no empty filter stick box exists on the third station;

a fourth photoelectric switch, arranged on a fourth station between the forming machine and the third station, for sending a fourth detection signal to the controller in case there is no empty filter rod box on the fourth station;

the controller sends an empty filter stick box ex-warehouse application signal to the warehouse control system under the condition of receiving the third detection signal; in the event that the fourth detection signal is received, conveying the empty filter rod magazine on the third station to the fourth station and further into the forming machine;

the warehouse control system is also used for applying for an empty filter stick box ex-warehouse task to a warehouse management system under the condition of receiving the empty filter stick box ex-warehouse application signal; under the condition of receiving the empty filter stick box ex-warehouse response signal, sending an empty filter stick box ex-warehouse signal to a stacker;

and the stacker is used for taking out the empty filter stick boxes from the warehouse and placing the empty filter stick boxes at the third platform under the condition of receiving the empty filter stick box delivery signals.

3. The system of claim 2, further comprising:

a fifth photoelectric switch, provided at a fifth station between said first station and said warehouse, for sending a fifth detection signal to said controller in case the number of solid filter rod magazines at said fifth station reaches a predetermined number;

the controller is used for sending a solid filter stick box warehousing application signal to the warehouse control system under the condition of receiving the fifth detection signal;

the warehouse control system is also used for applying for a solid filter stick box warehousing task to the warehouse management system under the condition of receiving the solid filter stick box warehousing application signal; sending a solid filter stick box warehousing signal to the stacker under the condition of receiving a solid filter stick box warehousing response signal;

and the stacker is also used for transferring the solid filter stick boxes on the fifth platform into the warehouse under the condition of receiving the solid filter stick box warehousing signals.

4. The system of claim 1, further comprising:

a sixth photoelectric switch, provided at a sixth station between the second station and the warehouse, for sending a sixth detection signal to the controller in the absence of a solid filter rod box at the sixth station;

the controller is further configured to send a solid filter stick box ex-warehouse application signal to the warehouse control system to apply for ex-warehouse of the solid filter stick box in which the expected radio frequency identification information is written, under the condition that the sixth detection signal is received;

the warehouse control system is also used for applying for the solid filter stick box ex-warehouse task to a warehouse management system under the condition of receiving the solid filter stick box ex-warehouse application signal; under the condition of receiving the solid filter stick box ex-warehouse response signal, sending a solid filter stick box ex-warehouse signal to a stacker;

and the stacker is used for transferring the solid filter stick box out of the warehouse and placing the solid filter stick box at the sixth platform under the condition of receiving the solid filter stick box out-warehouse signal.

5. The system of claim 4, further comprising:

a seventh photoelectric switch, arranged at a seventh station between the transmitter and the warehouse, for sending a seventh detection signal to the controller when the number of empty filter rod boxes coming out of the transmitter at the seventh station reaches a preset number;

the controller is used for sending an empty filter rod box warehousing application signal to the warehouse control system under the condition of receiving the seventh detection signal;

the warehouse control system is also used for applying for an empty filter rod box warehousing task to the warehouse management system under the condition of receiving the empty filter rod box warehousing application signal; under the condition of receiving an empty filter stick box warehousing response signal, sending an empty filter stick box warehousing signal to the stacker;

and the stacker is also used for transferring the empty filter stick boxes on the seventh platform into the warehouse under the condition of receiving the empty filter stick box warehousing signal.

6. The system of claim 1, further comprising:

the first indicator light is electrically connected with the controller;

the controller is also used for controlling the first indicator light to be on under the condition that the first radio frequency identification reader-writer fails to write the radio frequency identification information into the solid filter stick box from the forming machine.

7. The system of claim 1, further comprising:

the second indicator light is electrically connected with the controller;

the controller is also used for controlling the second indicating lamp to be lightened under the condition that the read radio frequency identification information is inconsistent with the expected radio frequency identification information.

8. The system of claim 1, wherein the radio frequency identification information comprises a filter stick brand.

9. The system of claim 3, wherein the first, second, third, fourth, and fifth opto-electronic switches comprise opposed opto-electronic switches.

10. The system of claim 5, wherein the sixth and seventh opto-electronic switches comprise opposed opto-electronic switches.

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