CN212014424U - Offline filter stick detection system - Google Patents

Abstract

The utility model provides an off-line filter rod detecting system relates to tobacco equipment technical field, include: the system comprises a filter rod disc provided with an electronic tag, a first electronic tag reading-writing device, a second electronic tag reading-writing device and a human-computer interaction interface HMI monitoring device; the first electronic tag reading-writing equipment is used for writing the offline filter stick information into the electronic tag; the second electronic tag reading-writing equipment is used for reading the offline filter stick information from the electronic tag and sending the offline filter stick information to the HMI monitoring equipment; the HMI monitoring device determines whether a filter stick in the filter stick tray is faulty based on the offline filter stick information. The utility model discloses an off-line filter rod detecting system realizes the mistake proofing of filter rod and product and traces back, can prevent the filter rod effectively the mistake, mix the tablet, realizes the overall process management of filter rod transfer, improves the rate of accuracy of the discernment of filter rod dish information, has improved the quality control efficiency of filter rod.

Description

Offline filter stick detection system

Technical Field

The utility model relates to a tobacco equipment technical field especially relates to an off-line filter rod detecting system.

Background

At present, filter sticks produced by filter stick production equipment are mainly conveyed to a filter stick receiver through a filter stick loading and unloading tray machine or a filter stick transfer vehicle. In the transferring process, the filter sticks of various production brands are distinguished and stored in a classified mode manually, and when the filter sticks are stored and taken out, the information of the brands of the filter sticks is confirmed manually through a checking record book. The filter sticks with the same size and specification cannot be visually distinguished, and even the same filter stick transfer car can have filter sticks with different brands (with different indexes such as suction resistance, ventilation degree and plasticizer content), so that quality accidents such as wrong brands and mixed brands caused by artificial negligence are easily caused; when the filter stick is placed in the filter stick transfer area and taken out from the transfer area, information such as the number and time is manually recorded through paper, errors, mistakes and omissions are easy to generate, the management of the filter stick information and material tracing are not facilitated, and process quality accidents are caused; and the information inquiry of the transfer of the filter stick is time-consuming and labor-consuming depending on the paper record book, so that the quality management efficiency of the filter stick is greatly reduced.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an off-line filter rod detecting system.

According to an aspect of the utility model, a provide an off-line filter rod detecting system, include: the system comprises a filter rod disc provided with an electronic tag, a first electronic tag reading-writing device, a second electronic tag reading-writing device and a human-computer interaction interface HMI monitoring device; the first electronic tag reading-writing equipment and the second electronic tag reading-writing equipment are installed in cigarette production equipment; the first electronic tag reading-writing equipment is used for writing off-line filter stick information into the electronic tag; the second electronic tag reading and writing equipment is used for reading the offline filter stick information from the electronic tag and sending the offline filter stick information to the human-computer interaction interface HMI monitoring equipment; and the HMI monitoring equipment determines whether the filter sticks in the filter stick tray have errors or not based on the offline filter stick information.

Optionally, the cigarette production apparatus comprises: a filter stick tray filling machine; the first electronic tag reading-writing equipment is arranged in the filter stick tray filling machine; the first electronic tag reading-writing equipment is used for writing the offline filter stick information into the electronic tag when the filter stick tray is in a full tray state; wherein the offline filter stick information comprises: filter stick tray type, filter stick production brand information, production equipment codes, production date and time, production class, filter stick tray type and filter stick full tray serial number.

Optionally, the manufacturing execution system MES system or the HMI monitoring device sends a production task work order to the filter rod tray filler; wherein, the information carried in the production task work order includes: the offline filter stick information; the first electronic tag reading-writing device is used for receiving the offline filter stick information sent by the filter stick tray filling machine, digitally encoding the offline filter stick information and the production time stamp, generating a character string with a specified sequence and writing the character string into the electronic tag.

Optionally, after the first electronic tag reading and writing device writes the offline filter stick information into the electronic tag, the first electronic tag reading and writing device reads the first offline filter stick information from the electronic tag and sends the first offline filter stick information to the HMI monitoring device; the MES system sends the production task work order to the HMI monitoring equipment; the HMI monitoring equipment compares the first offline filter stick information with the offline filter stick information carried in the production task work order; and if the comparison result is inconsistent, the HMI monitoring equipment generates alarm information and controls the filter rod tray unloading machine to stop running.

Optionally, the cigarette production apparatus comprises: a filter stick tray unloading machine and a filter stick receiver; the filter stick tray unloading machine and the filter stick receiver are respectively provided with the second electronic tag reading-writing equipment; the second electronic tag reading-writing equipment reads second offline filter stick information from the electronic tag and sends the second offline filter stick information to the HMI monitoring equipment; the HMI monitoring equipment is used for comparing the second offline filter stick information with the offline filter stick information carried in the production task work order so as to determine whether the filter stick in the filter stick tray has errors.

Optionally, if the second offline filter stick information is consistent with the offline filter stick information carried in the production task work order, the HMI monitoring device controls the second electronic tag reading and writing device to erase the electronic tag, and controls the filter stick tray unloading machine and/or the filter stick receiver to operate; the HMI monitoring equipment sends the second offline filter stick information to a production management server so that the production management server generates a filter stick disc information flow report; and if the second offline filter stick information is inconsistent with the offline filter stick information carried in the production task work order, the HMI monitoring equipment controls the filter stick tray unloading machine and/or the filter stick receiver to stop running and generates an alarm indication.

Optionally, the HMI monitoring device is provided with a display interface, a query interface, and a monitoring alarm interface; and displaying information corresponding to the electronic tag and the production task work order in the display interface, and inquiring production task information through the inquiry interface.

Optionally, the cigarette production equipment is respectively connected with the MES system and the HMI monitoring equipment through a local area network; and the MES system automatically generates the production task work order or configures the production task work order through a management interface of the HMI monitoring equipment.

The utility model discloses an off-line filter rod detecting system adopts the electronic tags technique to bear the production information of off-line filter rod, utilizes automation technology to carry out the reading and writing of information, trail, judge and compare etc. to the electronic tags of installing on the filter rod dish to show and report to the police with the mistake as a result, realize the mistake proofing mistake and the product of filter rod and trace back, can prevent the mistake of filter rod effectively, mix the tablet, realize the overall process management of filter rod transfer, improve the rate of accuracy of the discernment of filter rod dish information, improved the quality management efficiency of filter rod.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive laboriousness.

Figure 1 is a schematic view of one embodiment of an off-line filter rod detection system according to the present invention;

figure 2 is a schematic diagram of a filter rod production process flow according to an embodiment of the off-line filter rod detection system of the present invention;

figure 3 is a schematic view of another embodiment of an off-line filter rod detection system according to the present invention;

figure 4 is a control flow schematic of one embodiment of an off-line filter rod detection system according to the present invention;

figure 5 is a schematic connection diagram of one embodiment of an off-line filter rod detection system according to the present invention;

figure 6 is a schematic view of a window interface of an HMI monitoring device in an embodiment of an offline filter rod detection system according to the present invention.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown. The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention. The technical solution of the present invention is described in many ways with reference to the drawings and the embodiments.

The terms "first", "second", and the like are used hereinafter only for descriptive distinction and not for other specific meanings.

The off-line filter rod refers to a transfer filter rod which is produced by the filter rod forming machine and is sent to the cigarette making and plug assembling machine without passing through a filter rod conveying system. In a cigarette enterprise, after filter rods produced by a filter rod forming machine are placed in a tray by a filter rod tray filling machine, manual filter rod full tray loading is carried out, and the filter rods are conveyed to a filter rod transfer room to produce off-line filter rods. The filter stick full tray is a filter stick tray which is full of filter sticks.

As shown in fig. 1, the utility model provides an off-line filter stick detection system, include: a filter stick tray 01 provided with electronic labels 10, a first electronic label reading and writing device 20, a second electronic label reading and writing device 30 and a human-Machine interface hmi (human Machine interface) monitoring device 40. The electronic tag may be an RFID tag or the like, and RFID (Radio Frequency Identification) is a communication technology that can identify a specific target and read and write related data through a Radio signal without establishing mechanical or optical contact with the specific target. The RFID tags are composed of coupling elements and chips, each RFID tag has a unique electronic code and is attached to an object to identify a target object. The electronic tag reading and writing device can be an RFID reading and writing device and the like.

The first electronic tag reading-writing device 20 and the second electronic tag reading-writing device 30 are installed in a cigarette production device, the cigarette production device can be a variety of devices, and the number of the first electronic tag reading-writing device 20 and the second electronic tag reading-writing device 30 can be one or more. The first electronic tag reading and writing device 20 writes the offline filter stick information into the electronic tag 10, and the second electronic tag reading and writing device 30 reads the offline filter stick information from the electronic tag 10 and sends the offline filter stick information to the HMI monitoring device 40. The HMI monitoring apparatus 40 determines whether a filter rod in the filter rod tray 01 is faulty based on the offline filter rod information.

As shown in fig. 2, the electronic tag 10 is adopted to add 'identity information' to the filter rod tray 01, the identity information can contain all information of filter rod materials, the filter rod information is read, written, identified, compared and the like in real time through the existing automatic algorithm, the verification and error correction can be carried out during the production and use of the filter rods, the filter rod tray with correct identity information is released, the filter rod tray with wrong identity is prevented, the information of the filter rod tray which is put into use is counted, the wrong and mixed brands of the filter rods are effectively prevented, and the efficient filter rod information management is realized.

In the off-line filter stick detection system in the embodiment, the electronic tag technology is adopted to bear the production information of the off-line filter stick, the electronic tag arranged on the filter stick disc is subjected to information reading, writing, tracking, comparison and the like by utilizing the automation technology, and result display and error alarm are carried out, so that the error prevention and product tracing of the filter stick are realized; on the premise of not changing the existing production process flow, identity information is given to the filter stick disc, information acquisition and correction are carried out through an automatic program algorithm, the whole process management of filter stick transfer is realized, and the accuracy of identification of the filter stick disc information is improved.

As shown in fig. 3, the cigarette manufacturing apparatus comprises: the filter stick tray filler 02 and the first electronic tag reading and writing device 20 are installed in the filter stick tray filler 02. When the filter stick tray 01 is in a full tray state, the first electronic tag reading and writing device 20 writes off-line filter stick information into the electronic tag 10, wherein the off-line filter stick information includes: filter stick tray type, filter stick production brand information, production equipment codes, production date and time, production class, filter stick tray type, filter stick full tray serial number and the like.

Manufacturing execution system mes (manufacturing execution system) system 05 or HMI monitoring device 40 sends a production task work order to filter rod tray filler 02, where the information carried in the production task work order includes: the off-line filter stick information comprises filter stick tray identification, filter stick production brand information, production equipment codes, production date and time, production class, filter stick tray type, filter stick full tray serial number and the like. The first electronic tag reading and writing device 20 receives the offline filter rod information sent by the filter rod tray filler 02, digitally encodes the offline filter rod information and the production time stamp, generates a character string having a prescribed sequence, and writes the character string in the electronic tag 10.

In one embodiment, the first electronic label reading and writing device 20 digitally encodes the production information of the offline filter rod (filter rod tray, production brand information, production device code, production date and time, production class, filter rod tray type, filter rod full tray serial number, etc.), and combines and converts into a character string of a prescribed sequence. The first electronic tag reading and writing device 20 dynamically processes the time point of the filter rod tray filler 02 production to generate a timestamp for distinguishing the identity information of each filter rod tray 01. The first electronic tag reading and writing device 20 writes a character string including a time stamp in the electronic tag 10 on the filter rod full tray (filter rod tray 01 full of filter rods) produced by the filter rod tray filler 02, wherein the character string includes all the associated information of the offline filter rod product.

The delay timer delays 500ms, so that the first electronic tag reading and writing device 20 writes off-line filter stick information into the electronic tag 10 when the filter stick disc stably runs into a monitoring area of the reading and writing device. After the first electronic tag reading and writing device 20 writes the offline filter stick information into the electronic tag 10, the first electronic tag reading and writing device 20 reads the first offline filter stick information from the electronic tag 10 and sends the first offline filter stick information to the HMI monitoring device 40. For example, after the first electronic tag reading and writing device 20 writes the offline filter stick information into the electronic tag 10, within 1500ms, the first electronic tag reading and writing device 20 reads the first offline filter stick information from the electronic tag 10 and sends the first offline filter stick information to the HMI monitoring device 40, where the first offline filter stick information includes: filter stick tray type, filter stick production brand information, production equipment codes, production date and time, production class, filter stick tray type, filter stick full tray serial number and the like.

The MES system 05 can send the production task work order to the HMI monitoring device 40 or the HMI monitoring device 40 can generate the production task work order. The HMI monitoring equipment 40 can compare the first offline filter stick information with the offline filter stick information carried in the production task work order, if the comparison result is inconsistent, the HMI monitoring equipment 40 generates alarm information, can generate acousto-optic alarm to remind field operators of abnormal information, and controls the filter stick tray unloading machine 02 to stop running, and the abnormal information is written by the operators for the second time; if the comparison result is consistent, the HMI monitoring equipment 40 controls the filter stick tray unloading machine 02 to release the filter stick tray 01.

In one embodiment, a cigarette manufacturing apparatus comprises: a filter rod tray unloading machine 03 and a filter rod receiver 04; a second electronic tag reading and writing device 301 and a second electronic tag reading and writing device 302 are respectively arranged in the filter rod tray unloading machine 03 and the filter rod receiver 04. The second electronic tag reading and writing device 301 and the second electronic tag reading and writing device 302 read second offline filter stick information from the electronic tag 10 and send the second offline filter stick information to the HMI monitoring device 40, where the second offline filter stick information includes: filter stick tray type, filter stick production brand information, production equipment codes, production date and time, production class, filter stick tray type, filter stick full tray serial number and the like. The HMI monitoring device 40 compares the second offline filter rod information with the offline filter rod information carried in the production task work order to determine whether a filter rod in the filter rod tray 01 has an error.

On the filter stick tray unloading machine full tray conveying belt or the filter stick receiver conveying channel, the second electronic tag reading and writing device 301 and the second electronic tag reading and writing device 302 read second off-line filter stick information in the electronic tag 10 on the filter stick tray 01 located at a specific position, and transmit the read second off-line filter stick information (including filter stick tray identification, filter stick production brand information, production device code, production date and time, production class, filter stick full tray serial number and the like) to the HMI monitoring device 40. After the second off-line filter stick information is read by the second electronic tag reading and writing device 302, an electronic tag information erasing action is immediately performed, so that the produced filter stick disc 01 is ensured to be an empty disc (the filter stick disc 01 is empty, and the content of the electronic tag 10 is empty).

If the second offline filter stick information is consistent with the offline filter stick information carried in the production task work order, the HMI monitoring device 40 controls the second electronic tag reading and writing device 301 and the second electronic tag reading and writing device 302 to erase the electronic tags, and controls the filter stick tray unloading machine 03 and the filter stick receiver 04 to operate; the HMI monitoring device 40 sends the second offline filter rod information to the production management server, so that the production management server generates a filter rod tray information flow report for filter rod production information management and product tracing. If the second off-line filter rod information is inconsistent with the off-line filter rod information carried in the production task work order, the HMI monitoring device 40 controls the filter rod tray unloading machine 03 and the filter rod receiver 04 to stop running, generates an alarm instruction, and releases or carries out wrong card processing after secondary confirmation by the equipment operator.

The cigarette production equipment can be respectively connected with the MES system and the HMI monitoring equipment through the local area network. As shown in fig. 4, taking the filter rod tray filler 02 and the first electronic tag reading and writing device 20 as an example, the MES system 05 and the HMI monitoring device 40 are connected to the filter rod tray filler 02 through the local area network 07, wherein the control device 021 of the filter rod tray filler 02 is connected to the local area network 07, and the control device 021 is connected to the first electronic tag reading and writing device 20 through the network interface 022 of the filter rod tray filler 02.

In one embodiment, as shown in fig. 5, the electronic tag is used as an information carrier, and the production information (including the production brand information of the filter stick, the production equipment code, the production date and time, the production class, the filter stick full tray serial number, etc.) of the offline filter stick is written by the first electronic tag reading and writing device 20, and the offline filter stick information written in the electronic tag is verified. Reading off-line filter stick information by second electronic label reading and writing equipment 301 and 302 arranged on the filter stick tray unloading machine and the filter stick receiver, comparing the read off-line filter stick information with actual production plan task information, releasing if the comparison result is consistent, stopping the equipment if the comparison result is inconsistent, and manually confirming again.

The HMI monitoring device 40 is provided with an interface window which can display information such as the number of filter rod discs which are currently produced in real time. The HMI monitoring equipment 40 is provided with a production work order plan manual/automatic selection function, and the HMI monitoring equipment 40 is provided with a production work order query page, so that the selection of filter stick production information can be manually carried out to generate a manual production work order. The HMI monitoring apparatus 40 is provided with a display function of real-time alarm information.

In one embodiment, the HMI monitoring device is provided with a display interface, a query interface and a monitoring alarm interface; and the information corresponding to the electronic tag and the production task work order are displayed in the display interface, and the production task information is inquired through the inquiry interface. The HMI monitoring equipment can display the running state of the read-write control of the electronic tag in real time, display the alarm information of the abnormal read-write of the information of the electronic tag in real time, inquire the information of the production task of the current plan in real time and the like. As shown in fig. 6, the HMI monitoring device is provided with a monitoring window for displaying the reading result of the current filter rod tray information in real time for the maintenance personnel to check. The HMI monitoring equipment is provided with a monitoring window, and can check production task work order information sent by MES to the filter stick tray unloading machine and the filter stick receiver. The HMI monitoring equipment is provided with a monitoring window, and when a production network fails, parameters of the filter stick information can be manually set to generate a work order for carrying out a production task. The HMI monitoring equipment is provided with a monitoring window for displaying the running state and IO monitoring state of the electronic tag reading and writing equipment in real time; and when a fault alarm is generated or the comparison result is inconsistent, a highlight alarm is generated and displayed on the interface.

The cigarette production equipment is respectively connected with the MES system and the HMI monitoring equipment through the local area network; the MES system automatically generates a production task work order, or configures the production task work order through a management interface of the HMI monitoring equipment, thereby realizing the generation mechanism of automatic and manual production planning tasks. And the information interaction between each production device and the MES system is realized through the production local area network. And through the HMI function, when the type of the work order of the production equipment is switched to be automatic by manual operation, the MES issues a production task to each production equipment to generate an automatic production work order which is used as a comparison reference of an error-proof method.

Through the interface function provided by the HMI monitoring equipment 40, when the manual operation switches the type of the production equipment work order to manual operation, an operator sets the filter stick tray type, the production brand information of the filter stick, the production equipment code, the production date and time, the production class type, the filter stick full tray serial number and the like one by one through windows such as check boxes, switching keys, input dialog boxes and the like on an HMI work order management interface to generate a manual production work order which is used as an error-proof comparison reference.

In the off-line filter stick detection system in the embodiment, the electronic tag technology is adopted to bear the production information of the off-line filter stick, the electronic tag arranged on the filter stick disc is subjected to information reading, writing, tracking, comparison and the like by utilizing the automation technology, and result display and error alarm are carried out, so that the error prevention and product tracing of the filter stick are realized; the information of the filter stick discs which are put into use is counted, so that the wrong and mixed filter sticks are effectively prevented; on the premise of not changing the existing production process flow, identity information is given to the filter stick disc, information acquisition and error correction are carried out, the whole process management of filter stick transfer is realized, the identification accuracy of the filter stick disc information is improved, and the quality management efficiency of the filter stick is improved.

The method and system of the present invention may be implemented in a number of ways. For example, the methods and systems of the present invention may be implemented by software, hardware, firmware, or any combination of software, hardware, and firmware. The above-described order for the steps of the method is for illustrative purposes only, and the steps of the method of the present invention are not limited to the order specifically described above unless specifically stated otherwise. Furthermore, in some embodiments, the present invention may also be embodied as programs recorded in a recording medium, the programs including machine readable instructions for implementing a method according to the present invention. Thus, the present invention also covers a recording medium storing a program for executing the method according to the present invention.

The description of the present invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to practitioners skilled in this art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. An off-line filter rod detection system, comprising:

the system comprises a filter rod disc provided with an electronic tag, a first electronic tag reading-writing device, a second electronic tag reading-writing device and a human-computer interaction interface HMI monitoring device;

the first electronic tag reading-writing equipment and the second electronic tag reading-writing equipment are installed in cigarette production equipment; the first electronic tag reading-writing equipment is used for writing off-line filter stick information into the electronic tag; the second electronic tag reading and writing equipment is used for reading the offline filter stick information from the electronic tag and sending the offline filter stick information to the human-computer interaction interface HMI monitoring equipment; and the HMI monitoring equipment determines whether the filter sticks in the filter stick tray have errors or not based on the offline filter stick information.

2. The system of claim 1, wherein the cigarette production facility comprises: a filter stick tray filling machine; the first electronic tag reading-writing equipment is arranged in the filter stick tray filling machine;

the first electronic tag reading-writing equipment is used for writing the offline filter stick information into the electronic tag when the filter stick tray is in a full tray state;

wherein the offline filter stick information comprises: filter stick tray type, filter stick production brand information, production equipment codes, production date and time, production class, filter stick tray type and filter stick full tray serial number.

3. The system of claim 2, wherein,

a manufacturing execution system MES system or the HMI monitoring equipment sends a production task work order to the filter stick tray filler; wherein, the information carried in the production task work order includes: the offline filter stick information;

the first electronic tag reading-writing device is used for receiving the offline filter stick information sent by the filter stick tray filling machine, digitally encoding the offline filter stick information and the production time stamp, generating a character string with a specified sequence and writing the character string into the electronic tag.

4. The system of claim 3, wherein,

after the first electronic tag reading and writing device writes the offline filter stick information into the electronic tag, the first electronic tag reading and writing device reads the first offline filter stick information from the electronic tag and sends the first offline filter stick information to the HMI monitoring device;

the MES system sends the production task work order to the HMI monitoring equipment; the HMI monitoring equipment compares the first offline filter stick information with the offline filter stick information carried in the production task work order; and if the comparison result is inconsistent, the HMI monitoring equipment generates alarm information and controls the filter rod tray unloading machine to stop running.

5. The system of claim 4, wherein,

the cigarette production equipment comprises: a filter stick tray unloading machine and a filter stick receiver; the filter stick tray unloading machine and the filter stick receiver are respectively provided with the second electronic tag reading-writing equipment; the second electronic tag reading-writing equipment reads second offline filter stick information from the electronic tag and sends the second offline filter stick information to the HMI monitoring equipment;

the HMI monitoring equipment is used for comparing the second offline filter stick information with the offline filter stick information carried in the production task work order so as to determine whether the filter stick in the filter stick tray has errors.

6. The system of claim 5, wherein,

if the second offline filter stick information is consistent with the offline filter stick information carried in the production task work order, the HMI monitoring equipment controls the second electronic tag reading and writing equipment to erase the electronic tag and controls the filter stick tray unloading machine and/or the filter stick receiver to operate; the HMI monitoring equipment sends the second offline filter stick information to a production management server so that the production management server generates a filter stick disc information flow report;

and if the second offline filter stick information is inconsistent with the offline filter stick information carried in the production task work order, the HMI monitoring equipment controls the filter stick tray unloading machine and/or the filter stick receiver to stop running and generates an alarm indication.

7. The system of claim 6, wherein,

the HMI monitoring equipment is provided with a display interface, a query interface and a monitoring alarm interface; and displaying information corresponding to the electronic tag and the production task work order in the display interface, and inquiring production task information through the inquiry interface.

8. The system of claim 4, wherein,

the cigarette production equipment is respectively connected with the MES system and the HMI monitoring equipment through a local area network;

and the MES system automatically generates the production task work order or configures the production task work order through a management interface of the HMI monitoring equipment.

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