CN113506411A - Automatic temperature control high-temperature electric heating belt production system and technology - Google Patents
Automatic temperature control high-temperature electric heating belt production system and technology Download PDFInfo
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- CN113506411A CN113506411A CN202110637920.4A CN202110637920A CN113506411A CN 113506411 A CN113506411 A CN 113506411A CN 202110637920 A CN202110637920 A CN 202110637920A CN 113506411 A CN113506411 A CN 113506411A
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B7/00—Signalling systems according to more than one of groups G08B3/00 - G08B6/00; Personal calling systems according to more than one of groups G08B3/00 - G08B6/00
- G08B7/06—Signalling systems according to more than one of groups G08B3/00 - G08B6/00; Personal calling systems according to more than one of groups G08B3/00 - G08B6/00 using electric transmission, e.g. involving audible and visible signalling through the use of sound and light sources
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/18—Status alarms
- G08B21/185—Electrical failure alarms
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B25/00—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
- G08B25/01—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
- G08B25/10—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using wireless transmission systems
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N5/00—Details of television systems
- H04N5/30—Transforming light or analogous information into electric information
- H04N5/33—Transforming infrared radiation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
Abstract
The invention relates to the technical field of high-temperature electric heating belt production, and discloses a self-temperature-control high-temperature electric heating belt production system and a self-temperature-control high-temperature electric heating belt production process. According to the automatic temperature control high-temperature electric heating belt production system and process, due to the fact that the production system is set, automatic monitoring can be conducted on automatic temperature control high-temperature electric heating belt production equipment data and the production process of the automatic temperature control high-temperature electric heating belt at any time, each abnormal data can be detected by the safety early warning unit, sound and light source alarming is conducted immediately, and messages are sent to the corresponding processing module immediately to conduct related personnel maintenance and error correction, the problem that the product quality is low due to the technical level of operators and equipment problems is solved, production efficiency is improved, and production cost of products is reduced.
Description
Technical Field
The invention relates to the technical field of high-temperature electric heating tape production, in particular to a system and a process for producing a self-temperature-control high-temperature electric heating tape.
Background
The self-temperature-control electric heating belt is an electrical element, is composed of a conductive core belt with PTC (positive temperature coefficient) characteristic and a covered insulating protective layer, and can automatically adjust the output power and the heat mixing temperature along with the temperature change of a heat-traced object; the electric heating belt can be cut back at will or used for a long time in a certain range, and has the advantages of good insulating property, ageing resistance, low-voltage operation, safety, reliability, good flexibility, convenience in installation, use and maintenance and the like.
Disclosure of Invention
The invention aims to provide a system and a process for producing a self-temperature-control high-temperature electric heating belt, which aim to solve the problems in the background art.
In order to achieve the purpose, the invention provides the following technical scheme: a production system of a self-temperature-control high-temperature electric heating belt comprises a central processing unit, wherein a transmitting end of the central processing unit is in signal connection with a receiving end of a server, a receiving end of the central processing unit is in signal connection with a transmitting end of a database, a receiving end of the central processing unit is in signal connection with a transmitting end of an alarm condition detection unit, a receiving end of the central processing unit is in signal connection with a transmitting end of an image acquisition unit, a receiving end of the central processing unit is in signal connection with a transmitting end of a safety early warning unit, a receiving end of the central processing unit is in signal connection with a transmitting end of an alarm control unit, a receiving end of the safety early warning unit is in signal connection with a transmitting end of a wireless receiving module, a receiving end of the safety early warning unit is in signal connection with a transmitting end of a data analysis module, a receiving end of the safety early warning unit is in signal connection with a transmitting end of a data feedback module, and a receiving end of the safety early warning unit is in signal connection with a transmitting end of a warning platform, the alarm receiving platform transmitting terminal is in signal connection with the data recording log module receiving terminal, and the data recording log module transmitting terminal is in signal connection with the database receiving terminal.
Preferably, the transmitting end of the wireless receiving module is in signal connection with the receiving end of the data analysis module, the transmitting end of the data analysis module is in signal connection with the receiving end of the data feedback module, the transmitting end of the data feedback module is in signal connection with the receiving end of the alarm receiving platform, the receiving end of the alarm receiving platform is in signal connection with the transmitting end of the notification equipment maintenance module, and the receiving end of the alarm receiving platform is in signal connection with the transmitting end of the notification process error correction module.
Preferably, the receiving end of the alarm detection unit is in signal connection with the transmitting end of the data extraction module, the receiving end of the alarm detection unit is in signal connection with the transmitting end of the data update module, the receiving end of the alarm detection unit is in signal connection with the transmitting end of the data modeling module, the receiving end of the alarm detection unit is in signal connection with the transmitting end of the data comparison module, the receiving end of the alarm detection unit is in signal connection with the transmitting end of the wireless transmission module, and the transmitting end of the wireless transmission module is in signal connection with the receiving end of the wireless reception module.
Preferably, the transmitting end of the data extraction module is in signal connection with the receiving end of the data updating module, the transmitting end of the data updating module is in signal connection with the receiving end of the data extraction module, the transmitting end of the data updating module is in signal connection with the receiving end of the data modeling module, the transmitting end of the data modeling module is in signal connection with the receiving end of the data comparison module, the transmitting end of the data comparison module is in signal connection with the receiving end of the wireless transmitting module, the receiving end of the data extraction module is in signal connection with the transmitting end of the equipment monitoring module, and the receiving end of the data updating module is in signal connection with the transmitting end of the timer module.
Preferably, the image acquisition unit receiving end is in signal connection with the image acquisition module transmitting end, the image acquisition unit receiving end is in signal connection with the image updating module transmitting end, the image acquisition unit receiving end is in signal connection with the image comparison module transmitting end, the image acquisition unit receiving end is in signal connection with the wireless transmission module transmitting end, and the wireless transmission module transmitting end is in signal connection with the wireless receiving module receiving end.
Preferably, the image acquisition module transmitting terminal is in signal connection with the image updating module receiving terminal, the image updating module transmitting terminal is in signal connection with the image acquisition module receiving terminal, the image updating module transmitting terminal is in signal connection with the image comparison module receiving terminal, the image comparison module transmitting terminal is in signal connection with the wireless transmitting module receiving terminal, the image acquisition module receiving terminal is in signal connection with the infrared camera module transmitting terminal, and the image updating module receiving terminal is in signal connection with the timer module transmitting terminal.
Preferably, the receiving end of the alarm control unit is in signal connection with the transmitting end of the fault positioning module, the receiving end of the alarm control unit is in signal connection with the transmitting end of the power signal cutting module, the receiving end of the alarm control unit is in signal connection with the transmitting end of the alarm module, the receiving end of the fault positioning module is in signal connection with the transmitting end of the position feedback module, the receiving end of the alarm module is in signal connection with the transmitting end of the sound alarm module, and the receiving end of the alarm module is in signal connection with the transmitting end of the light source alarm module.
The invention aims to solve another technical problem of a production process of a self-temperature-control high-temperature electric heating belt, which comprises the following steps:
1) the equipment monitoring module is in signal connection with production equipment, and the infrared camera module is placed on the workbench;
2) the sound alarm module and the light source alarm module are uniformly arranged at each working section, and a fault positioning module is arranged at each working section;
3) the timeliness is generated by the timer module and the data updating module, so that the data updating module utilizes the data extraction module to extract the running state data of the equipment, then the data comparison modeling is carried out through the data modeling module, the current state data and the stored normal state data are compared through the data comparison module, and then the current state data and the stored normal state data are sent to the safety early warning unit through the first wireless transmitting module;
4) the timeliness is generated by the two pairs of image updating modules of the timer module, so that the image updating modules utilize the image acquisition modules to acquire images of products on all the work tables, then the current images are compared with the stored normal process images through the image comparison module, and then the images are sent to the safety early warning unit through the wireless transmitting module II;
5) the data transmitted in the steps and the steps are processed by the safety early warning unit and are analyzed and compared with qualified data, if bad production data occur, a message is sent to the corresponding processing module through the alarm receiving platform, and the bad fault is recorded through the data recording log module;
6) the accident position is positioned through a fault positioning module in the alarm control unit, the alarm receiving platform is informed, meanwhile, the power supply of the accident position is turned off through a power supply signal cutting module, and then the sound alarm module and the light source alarm module send out alarm signals.
Compared with the prior art, the invention has the beneficial effects that: according to the automatic temperature control high-temperature electric heating belt production system and process, due to the fact that the production system is set, automatic monitoring can be conducted on automatic temperature control high-temperature electric heating belt production equipment data and the production process of the automatic temperature control high-temperature electric heating belt at any time, each abnormal data can be detected by the safety early warning unit, sound and light source alarming is conducted immediately, and messages are sent to the corresponding processing module immediately to conduct related personnel maintenance and error correction, the problem that the product quality is low due to the technical level of operators and equipment problems is solved, production efficiency is improved, and production cost of products is reduced.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic structural connection diagram of the warning situation detecting unit according to the present invention;
FIG. 3 is a schematic view of the structural connection of the image capturing unit according to the present invention;
fig. 4 is a schematic view of the structural connection of the alarm control unit of the present invention.
In the figure: 1 a central processing unit, 2 servers, 3 databases, 4 alarm detection units, 5 image acquisition units, 6 safety early warning units, 7 alarm control units, 8 data extraction modules, 9 data update modules, 10 equipment monitoring modules, 11 timer modules I, 12 data modeling modules, 13 data comparison modules, 14 wireless transmission modules I, 15 image acquisition modules, 16 image update modules and 17 infrared camera modules, an 18 timer module II, a 19 image contrast module, a 20 wireless transmitting module II, a 21 wireless receiving module, a 22 data analysis module, a 23 data feedback module, a 24 alarm receiving platform, a 25 notification equipment maintenance module, a 26 notification process error correction module, a 27 data recording log module, a 28 fault positioning module, a 29 position feedback module, a 30 power supply signal cutting module, a 31 alarm module, a 32 sound alarm module and a 33 light source alarm module.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-4, the present invention provides a technical solution: a production system of a self-temperature-control high-temperature electric heating belt comprises a central processing unit 1, wherein a transmitting end of the central processing unit 1 is in signal connection with a receiving end of a server 2, a receiving end of the central processing unit 1 is in signal connection with a transmitting end of a database 3, a receiving end of the central processing unit 1 is in signal connection with a transmitting end of an alarm detection unit 4, a receiving end of the central processing unit 1 is in signal connection with a transmitting end of an image acquisition unit 5, a receiving end of the central processing unit 1 is in signal connection with a transmitting end of a safety early warning unit 6, a receiving end of the central processing unit 1 is in signal connection with a transmitting end of an alarm control unit 7, a receiving end of the safety early warning unit 6 is in signal connection with a transmitting end of a wireless receiving module 21, a receiving end of the safety early warning unit 6 is in signal connection with a transmitting end of a data analysis module 22, a receiving end of the safety early warning unit 6 is in signal connection with a transmitting end of a data feedback module 23, and a receiving end of the safety early warning unit 6 is in signal connection with a transmitting end of a warning platform 24, the transmitting end of the alarm receiving platform 24 is in signal connection with the receiving end of the data recording log module 27, the transmitting end of the data recording log module 27 is in signal connection with the receiving end of the database 3, the transmitting end of the wireless receiving module 21 is in signal connection with the receiving end of the data analysis module 22, the transmitting end of the data analysis module 22 is in signal connection with the receiving end of the data feedback module 23, the transmitting end of the data feedback module 23 is in signal connection with the receiving end of the alarm receiving platform 24, the receiving end of the alarm receiving platform 24 is in signal connection with the transmitting end of the notification equipment maintenance module 25, the receiving end of the alarm receiving platform 24 is in signal connection with the transmitting end of the notification process error correction module 26, the receiving end of the alarm detection unit 4 is in signal connection with the transmitting end of the data extraction module 8, the receiving end of the alarm detection unit 4 is in signal connection with the transmitting end of the data updating module 9, and the receiving end of the alarm detection unit 4 is in signal connection with the transmitting end of the data modeling module 12, the receiving end of the alarm detection unit 4 is in signal connection with the transmitting end of the data comparison module 13, the receiving end of the alarm detection unit 4 is in signal connection with the transmitting end of the first wireless transmission module 14, the transmitting end of the first wireless transmission module 14 is in signal connection with the receiving end of the wireless reception module 21, the transmitting end of the data extraction module 8 is in signal connection with the receiving end of the data update module 9, the transmitting end of the data update module 9 is in signal connection with the receiving end of the data modeling module 12, the transmitting end of the data modeling module 12 is in signal connection with the receiving end of the data comparison module 13, the transmitting end of the data comparison module 13 is in signal connection with the receiving end of the first wireless transmission module 14, the receiving end of the data extraction module 8 is in signal connection with the transmitting end of the equipment monitoring module 10, the receiving end of the data update module 9 is in signal connection with the transmitting end of the first timer module 11, the receiving end of the image acquisition unit 5 is in signal connection with the transmitting end of the image acquisition module 15, the receiving end of the image acquisition unit 5 is in signal connection with the transmitting end of the image updating module 16, the receiving end of the image acquisition unit 5 is in signal connection with the transmitting end of the image comparison module 19, the receiving end of the image acquisition unit 5 is in signal connection with the transmitting end of the wireless transmitting module 20, the transmitting end of the wireless transmitting module 20 is in signal connection with the receiving end of the wireless receiving module 21, the transmitting end of the image acquisition module 15 is in signal connection with the receiving end of the image updating module 16, the transmitting end of the image updating module 16 is in signal connection with the receiving end of the image comparison module 19, the transmitting end of the image comparison module 19 is in signal connection with the receiving end of the wireless transmitting module 20, and the receiving end of the image acquisition module 15 is in signal connection with the transmitting end of the infrared camera module 17, the receiving end of the image updating module 16 is in signal connection with the transmitting end of the timer module II 18, the receiving end of the alarm control unit 7 is in signal connection with the transmitting end of the fault positioning module 28, the receiving end of the alarm control unit 7 is in signal connection with the transmitting end of the power signal cut-off module 30, the receiving end of the alarm control unit 7 is in signal connection with the transmitting end of the alarm module 31, the receiving end of the fault positioning module 28 is in signal connection with the transmitting end of the position feedback module 29, the receiving end of the alarm module 31 is in signal connection with the transmitting end of the sound alarm module 32, and the receiving end of the alarm module 31 is in signal connection with the transmitting end of the light source alarm module 33 The problem of low product quality caused by the technical level of operators and equipment problems is solved, the production efficiency is improved, and the production cost of products is also reduced.
The invention aims to solve another technical problem of a production process of a self-temperature-control high-temperature electric heating belt, which comprises the following steps:
1) the production state of the equipment is monitored constantly by connecting the equipment monitoring module 10 with the production equipment through signals, and the infrared camera module 17 is placed on a workbench to acquire processing data pictures in real time;
2) the sound alarm module 32 and the light source alarm module 33 are uniformly arranged at each working section, and the fault positioning module 28 is arranged at each working section;
3) the timeliness is generated on the data updating module 9 through the timer module I11, so that the data updating module 9 utilizes the data extracting module 8 to extract running state data of the equipment, then data comparison modeling is carried out through the data modeling module 12, current state data and stored normal state data are compared through the data comparison module 13, and then the current state data and the stored normal state data are sent to the safety early warning unit 6 through the wireless transmitting module I14;
4) the timeliness is generated on the image updating module 16 through the second timer module 18, so that the image updating module 16 utilizes the image acquisition module 15 to acquire images of products on each workbench, then the current images are compared with the stored normal process images through the image comparison module 19, and then the images are sent to the safety early warning unit 6 through the second wireless transmitting module 20;
5) the data transmitted in the steps 3 and 4 are processed by the safety early warning unit 6 and are analyzed and compared with qualified data, if bad production data occur, a message is sent to the corresponding processing module by the alarm receiving platform 24, and the bad fault is recorded by the data recording log module 27;
6) the accident location is located by the fault location module 28 in the alarm control unit 7 and is informed to the alarm receiving platform 24, and at the same time, the power of the accident location is turned off by the power signal cut-off module 30, and then the sound alarm module 32 and the light source alarm module 33 emit alarm signals.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (8)
1. The utility model provides an automatic control temperature high temperature electric heat tape production system, includes central processing unit (1), its characterized in that: the transmitting end of the central processing unit (1) is in signal connection with the receiving end of the server (2), the receiving end of the central processing unit (1) is in signal connection with the transmitting end of the database (3), the receiving end of the central processing unit (1) is in signal connection with the transmitting end of the warning situation detection unit (4), the receiving end of the central processing unit (1) is in signal connection with the transmitting end of the image acquisition unit (5), the receiving end of the central processing unit (1) is in signal connection with the transmitting end of the safety early warning unit (6), the receiving end of the central processing unit (1) is in signal connection with the transmitting end of the alarm control unit (7), the receiving end of the safety early warning unit (6) is in signal connection with the transmitting end of the wireless receiving module (21), the receiving end of the safety early warning unit (6) is in signal connection with the transmitting end of the data analysis module (22), and the receiving end of the safety early warning unit (6) is in signal connection with the transmitting end of the data feedback module (23), the receiving end of the safety early warning unit (6) is in signal connection with the transmitting end of the alarm receiving platform (24), the transmitting end of the alarm receiving platform (24) is in signal connection with the receiving end of the data recording log module (27), and the transmitting end of the data recording log module (27) is in signal connection with the receiving end of the database (3).
2. A self-regulating temperature high-temperature electric heating belt production system according to claim 1, characterized in that: the wireless receiving module (21) transmitting terminal receives end signal connection with data analysis module (22), data analysis module (22) transmitting terminal receives end signal connection with data feedback module (23), data feedback module (23) transmitting terminal receives end signal connection with warning platform (24), receive warning platform (24) receiving terminal and notice equipment maintenance module (25) transmitting terminal signal connection, receive warning platform (24) receiving terminal and notice technology error correction module (26) transmitting terminal signal connection.
3. A self-regulating temperature high-temperature electric heating belt production system according to claim 2, characterized in that: the receiving end of the alarm detection unit (4) is in signal connection with the transmitting end of the data extraction module (8), the receiving end of the alarm detection unit (4) is in signal connection with the transmitting end of the data updating module (9), the receiving end of the alarm detection unit (4) is in signal connection with the transmitting end of the data modeling module (12), the receiving end of the alarm detection unit (4) is in signal connection with the transmitting end of the data comparison module (13), the receiving end of the alarm detection unit (4) is in signal connection with the transmitting end of the wireless transmitting module I (14), and the transmitting end of the wireless transmitting module I (14) is in signal connection with the receiving end of the wireless receiving module (21).
4. A self temperature controlling high temperature ribbon heater production system according to claim 3, wherein: data extraction module (8) transmitting terminal and data update module (9) accept end signal connection, data update module (9) transmitting terminal and data extraction module (8) accept end signal connection, data update module (9) transmitting terminal and data modeling module (12) accept end signal connection, data modeling module (12) transmitting terminal and data contrast module (13) accept end signal connection, data contrast module (13) transmitting terminal and wireless transmission module (14) accept end signal connection, data extraction module (8) accept end and equipment monitoring module (10) transmitting terminal signal connection, data update module (9) accept end and timer module (11) transmitting terminal signal connection.
5. The self-temperature-controlling high-temperature electric heating belt production system according to claim 4, characterized in that: the receiving end of the image acquisition unit (5) is in signal connection with the transmitting end of the image acquisition module (15), the receiving end of the image acquisition unit (5) is in signal connection with the transmitting end of the image updating module (16), the receiving end of the image acquisition unit (5) is in signal connection with the transmitting end of the image comparison module (19), the receiving end of the image acquisition unit (5) is in signal connection with the transmitting end of the wireless transmission module II (20), and the transmitting end of the wireless transmission module II (20) is in signal connection with the receiving end of the wireless receiving module (21).
6. A self-regulating temperature high-temperature electric heating belt production system according to claim 5, characterized in that: the image acquisition module (15) transmitting end is in signal connection with the image updating module (16) receiving end, the image updating module (16) transmitting end is in signal connection with the image acquisition module (15) receiving end, the image updating module (16) transmitting end is in signal connection with the image comparison module (19) receiving end, the image comparison module (19) transmitting end is in signal connection with the wireless transmitting module II (20) receiving end, the image acquisition module (15) receiving end is in signal connection with the infrared camera module (17) transmitting end, and the image updating module (16) receiving end is in signal connection with the timer module II (18) transmitting end.
7. A self temperature controlling high temperature ribbon heater production system according to claim 6, wherein: alarm control unit (7) is accepted the end and is connected with fault location module (28) transmitting terminal signal, alarm control unit (7) is accepted the end and is cut off module (30) transmitting terminal signal connection with power signal, alarm control unit (7) is accepted end and alarm module (31) transmitting terminal signal connection, fault location module (28) is accepted end and position feedback module (29) transmitting terminal signal connection, alarm module (31) is accepted end and audible alarm module (32) transmitting terminal signal connection, alarm module (31) is accepted end and light source alarm module (33) transmitting terminal signal connection.
8. A production process of a self temperature controlling high temperature electric heating belt according to claim 7, characterized in that: the method comprises the following steps:
1) the device monitoring module (10) is in signal connection with production equipment, and the infrared camera module (17) is placed on the workbench;
2) the sound alarm module (32) and the light source alarm module (33) are uniformly arranged at each working section, and a fault positioning module (28) is arranged at each working section;
3) the timeliness is generated on the data updating module (9) through the timer module I (11), so that the data updating module (9) utilizes the data extraction module (8) to extract running state data of the equipment, then the data comparison modeling is carried out through the data modeling module (12), the current state data and the stored normal state data are compared through the data comparison module (13), and then the current state data and the stored normal state data are sent to the safety early warning unit (6) through the wireless transmitting module I (14);
4) the timeliness is generated on the image updating module (16) through the timer module II (18), so that the image updating module (16) utilizes the image acquisition module (15) to acquire images of products on each workbench, then the current images are compared with the stored normal process images through the image comparison module (19), and then the images are sent to the safety early warning unit (6) through the wireless transmitting module II (20);
5) the data transmitted in the step (3) and the step (4) are processed by the safety early warning unit (6) and are analyzed and compared with qualified data, if bad production data occur, a message is sent to a corresponding processing module by the alarm receiving platform (24), and the bad fault is recorded by the data recording log module (27);
6) the accident position is positioned through a fault positioning module (28) in the alarm control unit (7), the alarm receiving platform (24) is informed, the power supply of the accident position is turned off through a power supply signal cutting module (30), and then an alarm signal is sent out through a sound alarm module (32) and a light source alarm module (33).
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| CN202110637920.4A CN113506411A (en) | 2021-06-08 | 2021-06-08 | Automatic temperature control high-temperature electric heating belt production system and technology |
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| CN202110637920.4A CN113506411A (en) | 2021-06-08 | 2021-06-08 | Automatic temperature control high-temperature electric heating belt production system and technology |
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2021
- 2021-06-08 CN CN202110637920.4A patent/CN113506411A/en active Pending
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4506259A (en) * | 1981-11-24 | 1985-03-19 | Raychem Corporation | Digital fault monitor for conductive heaters |
| TW201421011A (en) * | 2012-11-20 | 2014-06-01 | Chi-Ching Wu | Monitoring system and method thereof |
| CN104977921A (en) * | 2014-04-07 | 2015-10-14 | 韩华泰科株式会社 | System and method for automatically monitoring device faults |
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Application publication date: 20211015 |
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