CN104762647A - Anode treatment cloud monitoring system - Google Patents
Anode treatment cloud monitoring system Download PDFInfo
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- CN104762647A CN104762647A CN201410003879.5A CN201410003879A CN104762647A CN 104762647 A CN104762647 A CN 104762647A CN 201410003879 A CN201410003879 A CN 201410003879A CN 104762647 A CN104762647 A CN 104762647A
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Abstract
The invention provides an anode treatment cloud monitoring system. The system comprises an anode treatment device and a monitoring device. The anode treatment device comprises an anode, a cathode, an electrolytic tank and a power supply. The anode and the cathode are arranged at intervals, parts of the anode and the cathode are accommodated in the electrolytic tank, and the power supply is connected between the anode and the cathode. The anode comprises a support and a plurality of hangers detachably fixed on the support. The monitoring device comprises a plurality of prepositioned modules and a post-positioned module in wireless connection with the prepositioned modules. Each of the hangers is connected with one prepositioned module, and each of the prepositioned modules comprises an element for real time monitoring and measuring of current flowing through the hanger, and transmits the monitored current value to the post-positioned module. The post-positioned module drafts a current-time graph according to the current values acquired at different times, and compares the current-time graph and a current change graph in order to judge that the corresponding hanger is qualified or not. The real time current value of each of the hangers is wirelessly acquired in order to realize remote monitoring of the quality of a workpiece to be treated on each of the hangers.
Description
Technical field
The present invention relates to a kind of cloud monitoring system, particularly a kind of anodizing cloud monitoring system.
Background technology
Traditional anodizing device comprises an anode, a negative electrode, an electrolyzer and a power supply, described anode and described negative electrode separately and partial receipt in described electrolyzer, described power supply is connected to described anode and described negative electrode between the two ends that described electrolyzer exposes.Described anode comprises a support and multiple hanger be removably fixed on described support, each hanger carries multiple pending workpiece, and described pending workpiece immerses in the electrolytic solution of described electrolyzer completely.
Along with the rete of journey heavy on described pending workpiece is thicker, resistance is larger, and the electric current flowing through described anode and described negative electrode diminishes.Traditional monitoring method is exactly be connected with a reometer by described support, when the actual value that described reometer measures exceeds a preset range, show certain hanger on described support or the pending workpiece on certain several hanger defective, this just causes pending workpiece qualified on part hanger to be also taken as defective process.In addition, because the electrolytic solution in described electrolyzer generally has irritating smell, if operator closely carries out Real-Time Monitoring to the curtage on each hanger respectively, may affect to the health of operator.
Summary of the invention
In view of this, be necessary to provide a kind of energy long-range respectively to the anodizing cloud monitoring system that the quality of the pending workpiece on each hanger is monitored.
A kind of anodizing cloud monitoring system, it comprises an anodizing device and a monitoring device.Described anodizing device comprises an anode, a negative electrode, an electrolyzer and a power supply.Also partial receipt is in described electrolyzer separately for described anode and described negative electrode, and described power supply is connected between described anode and described negative electrode.Described anode comprises a support and multiple hanger be removably fixed on described support.Described monitoring device comprises multiple preposition module and one and the rearmounted module of described preposition module wireless connections.On each hanger, correspondence is connected with a preposition module, and described preposition module comprises a measuring element, and described measuring element carries out Real-Time Monitoring to the electric current flowing through this hanger, and the current value monitored is sent to described rearmounted module by described preposition module.The current value that described rearmounted module obtains according to different time draws current-vs-time figure, and this current-vs-time figure and the curent change figure prestored is compared to judge that whether the pending workpiece on corresponding described hanger is qualified.
A kind of anodizing cloud monitoring system, it comprises an anodizing device and a monitoring device.Described anodizing device comprises an anode, a negative electrode, an electrolyzer and a power supply.Also partial receipt is in described electrolyzer separately for described anode and described negative electrode, and described power supply is connected between described anode and described negative electrode.Described anode comprises a support and multiple hanger be removably fixed on described support.Described monitoring device comprises a preposition module and one and the rearmounted module of described preposition module wireless connections.Described preposition module comprises multiple measuring element, and described measuring element is electrically connected mutually with a hanger respectively and carries out Real-Time Monitoring to the electric current flowing through described hanger, and the current value monitored is sent to described rearmounted module by described preposition module.The current value that described rearmounted module obtains according to different time draws current-vs-time figure, and this current-vs-time figure and the curent change figure prestored is compared to judge that whether the pending workpiece on corresponding described hanger is qualified.
Anodizing cloud monitoring system provided by the invention is monitored the electric current flowing through each hanger respectively by preposition module, and the current value monitored is wirelessly transmitted to rearmounted module, according to the current value received, described rearmounted module judges that whether corresponding hanger is qualified, thus can realize carrying out remote monitoring to the quality of the pending workpiece on each hanger respectively.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the anodizing cloud monitoring system that first embodiment of the invention provides.
Fig. 2 is the functional block diagram of the monitoring device in the anodizing cloud monitoring system in Fig. 1.
Fig. 3 is the schematic diagram of the anodizing cloud monitoring system that second embodiment of the invention provides.
Fig. 4 is the functional block diagram of the monitoring device in the anodizing cloud monitoring system in Fig. 3.
Main element nomenclature
| Anodizing cloud monitoring system | 100,100a |
| Anodizing device | 10 |
| Anode | 11 |
| Support | 111 |
| Hanger | 112 |
| Negative electrode | 12 |
| Electrolyzer | 13 |
| Electrolytic solution | 131 |
| Power supply | 14 |
| Monitoring device | 20 |
| Preposition module | 21,21a |
| Measuring element | 211,211a |
| Preposition controller | 212 |
| Lead launch element | 213 |
| Preamble reception element | 214 |
| Alarm element | 215 |
| Rearmounted module | 22 |
| Rearmounted controller | 221 |
| Storer | 222 |
| Rearmounted transmitting element | 223 |
| Rearmounted receiving element | 224 |
Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.
Embodiment
As shown in Figure 1-2, a kind of anodizing cloud monitoring system 100 that first embodiment of the invention provides, it carries out anodizing for (not shown) to workpiece to be handled and quality to workpiece to be handled in anodizing process is monitored in real time.Described anodizing cloud monitoring system 100 comprises anodizing device 10 and a monitoring device 20.In present embodiment, described pending element is aluminum products.
Described anodizing device 10 comprises anode 11, negative electrode 12, electrolyzer 13 and a power supply 14.Described electrolyzer 13 fills an electrolytic solution 131.Described anode 11 and described negative electrode 12 separately and partial receipt in described electrolyzer 13.Described power supply 14 is connected between the two ends that described anode 11 and described negative electrode 12 stretch out from described electrolyzer 13.Described anode 11, described electrolytic solution 131, described negative electrode 12 and described power supply 14 form primary Ioops.Described anode 11 comprises a support 111 and multiple hanger 112 be removably fixed on described support 111.Described each hanger 112 can carry multiple pending element.In present embodiment, described support 111 and described hanger 112 all adopt electro-conductive material to make.On described each hanger 112, the number of the pending element of carrying is equal.Different hangers 112 has different numberings.
Described monitoring device 20 comprises multiple preposition module 21 and one and the rearmounted module 22 of described preposition module 21 wireless connections.Described multiple preposition module 21 is connected by modes such as WiFi, bluetooth, ZigBee and NFC with described rearmounted module 22.
Described each preposition module 21 comprises measuring element 211, preposition controller 212, lead launch element 213, preamble reception element 214 and an alarm element 215.Described measuring element 211, described lead launch element 213, described preamble reception element 214 and described alarm element 215 are electrically connected with described preposition controller 212 respectively.Described measuring element 211 and a hanger 112 are electrically connected, and it flows through the electric current of described hanger 112 for measuring.In present embodiment, described measuring element 211 is a reometer.Described alarm element 215 is a LED being arranged on corresponding hanger 112.Described preposition controller 212, described lead launch element 213, described preamble reception element 214 are fixed on the end that corresponding hanger 112 exposes described electrolytic solution 131.
Described rearmounted module 22 comprises rearmounted controller 221, storer 222, rearmounted transmitting element 223 and a rearmounted receiving element 224.Described storer 222, described rearmounted transmitting element 223 and described rearmounted receiving element 224 are electrically connected with described rearmounted controller 221 respectively.A curent change figure is stored in described storer 222.Described curent change figure is the pending workpiece different current value that different time is corresponding in the anodizing process of standard.In present embodiment, described rearmounted module 22 is a portable electron device, such as, and notebook computer or mobile phone.
In the process of described pending workpiece in anodizing, the current value of measurement is sent to described preposition controller 212 by described measuring element 211.Described preposition controller 212, by this current value, is sent by described lead launch element 213 after measuring the numbering packing of the time of this current value and the hanger 112 of measurement.Described rearmounted receiving element 224 receives the signal that described lead launch element 213 sends out.Due in anodizing process, along with the rete of journey heavy on described pending workpiece is thicker, resistance is larger, and the electric current flowing through described hanger 112 diminishes.Described rearmounted controller 221 is according to the current value measured and measure time of this current value and draw a current-vs-time figure, then by the described current-vs-time figure that draws compared with the described curent change figure prestored.When described current-vs-time figure is not identical with described curent change figure, described rearmounted controller 221 is sent after the packing of the numbering of a guard signal and corresponding hanger 112 by described rearmounted transmitting element 223.After described preamble reception element 214 receives the signal of the numbering had corresponding thereto, described preposition controller 212 controls described alarm element 215 according to the guard signal received and reports to the police.When described current-vs-time figure is identical with described curent change figure, described rearmounted controller 221 does not output signal.
As shown in Figure 3-4, a kind of anodizing cloud monitoring system 100a that second embodiment of the invention provides, the difference of the anodizing cloud monitoring system 100 that itself and first embodiment of the invention provide is: described anodizing cloud monitoring system 100a comprises a preposition module 21a, and described preposition module 21a comprises multiple measuring element 211a, preposition controller 212, lead launch element 213, preamble reception element 214 and an alarm element 215.Described multiple measuring element 211a, described lead launch element 213, described preamble reception element 214 and described alarm element 215 are electrically connected with described preposition controller 212 respectively.Described multiple measuring element 211a is electrically connected with hanger 112 phase respectively and carries out Real-Time Monitoring to the electric current flowing through described hanger 112.
Anodizing cloud monitoring system provided by the invention is monitored the electric current flowing through each hanger respectively by preposition module, and the current value monitored is wirelessly transmitted to rearmounted module, according to the current value received, described rearmounted module judges that whether corresponding hanger is qualified, thus can realize carrying out remote monitoring to the quality of each hanger respectively.
Be understandable that, for the person of ordinary skill of the art, other various corresponding change and distortion can be made by technical conceive according to the present invention, and all these change the protection domain that all should belong to the claims in the present invention with distortion.
Claims (10)
1. an anodizing cloud monitoring system, it comprises an anodizing device and a monitoring device; Described anodizing device comprises an anode, a negative electrode, an electrolyzer and a power supply; Also partial receipt is in described electrolyzer separately for described anode and described negative electrode, and described power supply is connected between described anode and described negative electrode; Described anode comprises a support and multiple hanger be removably fixed on described support; Described monitoring device comprises multiple preposition module and one and the rearmounted module of described preposition module wireless connections; On each hanger, correspondence is connected with a preposition module, and described preposition module comprises a measuring element, and described measuring element carries out Real-Time Monitoring to the electric current flowing through this hanger, and the current value monitored is sent to described rearmounted module by described preposition module; The current value that described rearmounted module obtains according to different time draws current-vs-time figure, and this current-vs-time figure and the curent change figure prestored is compared to judge that whether the pending workpiece on corresponding described hanger is qualified.
2. anodizing cloud monitoring system as claimed in claim 1, is characterized in that: described each preposition module also comprises a preposition controller, a lead launch element, a preamble reception element and an alarm element; Described measuring element, described lead launch element, described preamble reception element and described alarm element are electrically connected with described preposition controller respectively; The current value of measurement sends by described lead launch element.
3. anodizing cloud monitoring system as claimed in claim 2, is characterized in that: described rearmounted module comprises a rearmounted controller, a storer, a rearmounted transmitting element and a rearmounted receiving element; Described storer, described rearmounted transmitting element and described rearmounted receiving element are electrically connected with described rearmounted controller respectively; Described curent change figure stores in which memory, described rearmounted receiving element receives the current value that described lead launch element sends out, described rearmounted controller draws described current-vs-time figure according to the current value that different time obtains, and is compared by this current-vs-time figure and described curent change figure.
4. anodizing cloud monitoring system as claimed in claim 3, is characterized in that: when described current-vs-time figure is not identical with described curent change figure, and described rearmounted controller controls described rearmounted transmitting element and sends out a guard signal.
5. anodizing cloud monitoring system as claimed in claim 4, is characterized in that: after described preamble reception element receives described guard signal, and described preposition controller controls described alarm element and reports to the police.
6. an anodizing cloud monitoring system, it comprises an anodizing device and a monitoring device; Described anodizing device comprises an anode, a negative electrode, an electrolyzer and a power supply; Also partial receipt is in described electrolyzer separately for described anode and described negative electrode, and described power supply is connected between described anode and described negative electrode; Described anode comprises a support and multiple hanger be removably fixed on described support; Described monitoring device comprises a preposition module and one and the rearmounted module of described preposition module wireless connections; Described preposition module comprises multiple measuring element, and described measuring element is electrically connected mutually with a hanger respectively and carries out Real-Time Monitoring to the electric current flowing through described hanger, and the current value monitored is sent to described rearmounted module by described preposition module; The current value that described rearmounted module obtains according to different time draws current-vs-time figure, and this current-vs-time figure and the curent change figure prestored is compared to judge that whether the pending workpiece on corresponding described hanger is qualified.
7. anodizing cloud monitoring system as claimed in claim 6, is characterized in that: described preposition module also comprises a preposition controller, a lead launch element, a preamble reception element and an alarm element; Described multiple measuring element, described lead launch element, described preamble reception element and described alarm element are electrically connected with described preposition controller respectively; The current value of measurement sends by described lead launch element.
8. anodizing cloud monitoring system as claimed in claim 7, is characterized in that: described rearmounted module comprises a rearmounted controller, a storer, a rearmounted transmitting element and a rearmounted receiving element; Described storer, described rearmounted transmitting element and described rearmounted receiving element are electrically connected with described rearmounted controller respectively; Described curent change figure stores in which memory, described rearmounted receiving element receives the current value that described lead launch element sends out, described rearmounted controller draws described current-vs-time figure according to the current value that different time obtains, and is compared by this current-vs-time figure and described curent change figure.
9. anodizing cloud monitoring system as claimed in claim 8, is characterized in that: when described current-vs-time figure is not identical with described curent change figure, and described rearmounted controller controls described rearmounted transmitting element and sends out a guard signal.
10. anodizing cloud monitoring system as claimed in claim 9, is characterized in that: after described preamble reception element receives described guard signal, and described preposition controller controls described alarm element and reports to the police.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410003879.5A CN104762647A (en) | 2014-01-06 | 2014-01-06 | Anode treatment cloud monitoring system |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201410003879.5A CN104762647A (en) | 2014-01-06 | 2014-01-06 | Anode treatment cloud monitoring system |
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| CN104762647A true CN104762647A (en) | 2015-07-08 |
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| CN201410003879.5A Pending CN104762647A (en) | 2014-01-06 | 2014-01-06 | Anode treatment cloud monitoring system |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105970273A (en) * | 2016-05-21 | 2016-09-28 | 徐皓 | Unattended remote monitoring system for electrophoresis production line |
| CN112176392A (en) * | 2020-03-24 | 2021-01-05 | 鸿富锦精密电子(成都)有限公司 | Anode production line monitoring method and device and computer readable storage medium |
-
2014
- 2014-01-06 CN CN201410003879.5A patent/CN104762647A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105970273A (en) * | 2016-05-21 | 2016-09-28 | 徐皓 | Unattended remote monitoring system for electrophoresis production line |
| CN105970273B (en) * | 2016-05-21 | 2018-01-05 | 徐皓 | A kind of electrophoresis production line Unattended remote monitoring system |
| CN112176392A (en) * | 2020-03-24 | 2021-01-05 | 鸿富锦精密电子(成都)有限公司 | Anode production line monitoring method and device and computer readable storage medium |
| CN112176392B (en) * | 2020-03-24 | 2021-11-26 | 鸿富锦精密电子(成都)有限公司 | Anode production line monitoring method and device and computer readable storage medium |
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