CN102072665B - Remote mobile phone wireless monitoring device and monitoring method for heat treatment furnace - Google Patents
Remote mobile phone wireless monitoring device and monitoring method for heat treatment furnace Download PDFInfo
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- CN102072665B CN102072665B CN2010106239978A CN201010623997A CN102072665B CN 102072665 B CN102072665 B CN 102072665B CN 2010106239978 A CN2010106239978 A CN 2010106239978A CN 201010623997 A CN201010623997 A CN 201010623997A CN 102072665 B CN102072665 B CN 102072665B
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Abstract
The invention relates to a remote mobile phone wireless monitoring device and a remote mobile phone wireless monitoring method for a heat treatment furnace. The remote mobile phone wireless monitoring device comprises a mobile phone which is provided with a display module, a control module and a serial communication establishing module and mobile phone in which a first bluetooth module is embedded, wherein the first bluetooth module is connected with a first antenna; the first antenna is in wireless connection with one second antenna prearranged in a second antenna group; each second antenna in the second antenna group is connected with a second bluetooth module and is in wireless connection with all third antennae in a third antenna group; each third antenna is connected with one third bluetooth module; and each third bluetooth module is embedded in the heat treatment furnace. In the monitoring method, the heat treatment furnaces are controlled remotely by the mobile phone, so the trouble of arranging a plurality of heat treatment furnaces in a workshop is avoided, and the mobile phone has the characteristics of moving arbitrarily, controlling more than two heat treatment furnaces simultaneously and adjusting and controlling parameters.
Description
Technical field
The invention belongs to the controlled in wireless technical field, be specifically related to a kind of remote mobile phone wireless supervising device and method for supervising of heat-treatment furnace.
Background technology
Currently have a lot of heat-treatment furnaces usually at a shopwork scene; Many heat-treatment furnaces do not have the computer control interface or the computer interface of RS232 are arranged, and realize computer control, but no matter have or not computer interface; All needing wired control mode, need connect up in the workshop.Especially when heat-treatment furnace was many, it was often crisscross to connect up, and in addition, the operator need treat its operating state of control cubicle next door monitoring at heat-treatment furnace all day.Such control device and control method waste time and energy and also cause the difficulty of maintenance, and adopt the mode of controlled in wireless often not reach the control range more than 100 meters, and use is restricted.
Summary of the invention
In order to overcome the deficiency that above-mentioned prior art exists; The object of the present invention is to provide a kind of remote mobile phone wireless supervising device and method for supervising of heat-treatment furnace; Through adopting mobile phone remote control heat-treatment furnace; Both avoided in many heat-treatment furnace trouble caused of workshop wiring, the operator only need carry the mobile phone of Bluetooth technology simultaneously, and it is outer any mobile just can to surpass 100 meters of heat-treatment furnaces in distance; And can control the heat-treatment furnace more than two simultaneously; In monitoring heat-treatment furnace operating state, handle other affairs, when the running parameter of heat-treatment furnace need be adjusted, can also utilize the mobile phone of subsidiary bluetooth to carry out the adjustment control of parameter in addition.
In order to achieve the above object, the technical scheme that the present invention adopted is:
A kind of remote mobile phone wireless supervising device of heat-treatment furnace; Comprise and have the mobile phone 2 that display module 7, control module 8, serial communication are set up module 9 and embedded first bluetooth module 1; First bluetooth module 1 is connected with first antenna 3; One second antenna 4 wireless connections of presetting in first antenna 3 and second antenna sets; Every second antenna 4 in second antenna sets is connected with one second bluetooth module 5 respectively, and each second bluetooth module 5 is embedded in respectively in the wireless proxy mechanism 6, every second antenna 4 in other second antenna sets also respectively with a third antenna group in all third antenna 10 wireless connections; Each third antenna 10 is connected with one the 3rd bluetooth module 11, and each the 3rd bluetooth module 11 is embedded in the heat-treatment furnace 12.
The distance of described mobile phone 2 and each heat-treatment furnace 12 is more than 100 meters.
The method for supervising of the remote mobile phone wireless supervising device of above-mentioned heat-treatment furnace: at first start mobile phone 2, all wireless proxy mechanism 6 and all heat-treatment furnaces 12; Serial communication in mobile phone 2 is set up under the control of module 9; Through with second antenna sets of first antenna, 3 wireless connections in one second preset antenna 4; Mobile phone 2 is set up corresponding virtual serial communication link with second bluetooth module, the 5 embedded wireless proxy mechanisms 6 that second antenna 4 that should preset is connected; And this wireless proxy mechanism 6 also passes through to handle its second bluetooth module 5 simultaneously; Through with a third antenna group of second antenna, 4 wireless connections of this wireless proxy mechanism 6 in all third antennas 10; All heat-treatment furnaces 12 that the 3rd all bluetooth module 11 that this wireless proxy mechanism 6 is connected with all third antennas 10 in this third antenna group is embedded in are set up corresponding virtual serial communication link; Mobile phone 2 start-up control modules 8 are handled first bluetooth module 1 subsequently; Second bluetooth module 5 in along virtual serial port communication link sending controling instruction to corresponding wireless proxy mechanism 6, second bluetooth module 5 operates the corresponding function assembly that the control command that receives sends to heat-treatment furnace 12 subsequently; Each heat-treatment furnace 12 of while sends to each self-corresponding second bluetooth module 5 according to the preset time cycle with its temperature inside parameter, vacuum degree parameter, carbon potential parameter, infiltration layer thickness parameter and unusual parameter; The virtual serial port communication link of second bluetooth module 5 through separately shows via being forwarded in the display module 7 of first bluetooth module 1 with temperature parameter, vacuum degree parameter, carbon potential parameter and infiltrate the layer thickness parameter and send in first bluetooth module 1 of mobile phone 2 then; Control the supplemental characteristic of not setting up the heat-treatment furnace 12 of virtual serial port communication link or not set up the heat-treatment furnace 12 of virtual serial port communication link if desired; The coverage of the corresponding wireless proxy mechanism 6 of third antenna 10 wireless connections that just the 3rd bluetooth module 11 that mobile phone 2 moves to this heat-treatment furnace 12 is embedded in are connected; Serial communication in mobile phone 2 is set up under the control of module 9 subsequently; Earlier first antenna 3 is carried out wireless connections with second antenna 4 that second bluetooth module 5 in this wireless proxy mechanism 6 is connected; And then mobile phone 2 set up corresponding virtual serial communication link with this wireless proxy mechanism 6; And this wireless proxy mechanism 6 also passes through to handle its second bluetooth module 5 simultaneously; Through with a third antenna group of second antenna, 4 wireless connections of this wireless proxy mechanism 6 in all third antennas 10; All heat-treatment furnaces 12 that the 3rd all bluetooth module 11 that this wireless proxy mechanism 6 is connected with all third antennas 10 in this third antenna group is embedded in are set up corresponding virtual serial communication link; Mobile phone 2 start-up control modules 8 are handled first bluetooth module 1 subsequently; Second bluetooth module 5 in along virtual serial port communication link sending controling instruction to corresponding wireless proxy mechanism 6, second bluetooth module 5 operates the corresponding function assembly that the control command that receives sends to heat-treatment furnace 12 subsequently; Each heat-treatment furnace 12 of while sends to each self-corresponding second bluetooth module 5 according to the preset time cycle with its temperature inside parameter, vacuum degree parameter, carbon potential parameter, infiltration layer thickness parameter and unusual parameter; The virtual serial port communication link of second bluetooth module 5 through separately shows via being forwarded in the display module 7 of first bluetooth module 1 with temperature parameter, vacuum degree parameter, carbon potential parameter and infiltrate the layer thickness parameter and send in first bluetooth module 1 of mobile phone 2 then.
Through adopting mobile phone far distance controlled heat-treatment furnace; Many heat-treatment furnace trouble caused of wiring had both been avoided in the workshop; Simultaneously the operator only need carry the mobile phone of Bluetooth technology, and it is outer any mobile just can to surpass 100 meters of heat-treatment furnaces in distance, and can control the heat-treatment furnace more than two simultaneously; Has mobility like this; In monitoring heat-treatment furnace operating state, handle other affairs, when the running parameter of heat-treatment furnace need be adjusted, can also utilize the mobile phone of subsidiary bluetooth to carry out the adjustment control of parameter in addition.
Description of drawings
Accompanying drawing is an operation principle sketch map of the present invention.
Embodiment
Below in conjunction with accompanying drawing the present invention is done more detailed explanation.
Shown in accompanying drawing; The remote mobile phone wireless supervising device of heat-treatment furnace; Comprise and have the mobile phone 2 that display module 7, control module 8, serial communication are set up module 9 and embedded first bluetooth module 1; First bluetooth module 1 is connected with first antenna 3, one second antenna 4 wireless connections of presetting in first antenna 3 and second antenna sets, and every second antenna 4 in second antenna sets is connected with one second bluetooth module 5 respectively; Each second bluetooth module 5 is embedded in respectively in the wireless proxy mechanism 6; Every second antenna 4 in other second antenna sets also respectively with a third antenna group in all third antenna 10 wireless connections, each third antenna 10 is connected with one the 3rd bluetooth module 11, each the 3rd bluetooth module 11 is embedded in the heat-treatment furnace 12.
The distance of described mobile phone 2 and each heat-treatment furnace 12 is more than 100 meters.
The method for supervising of the remote mobile phone wireless supervising device of above-mentioned heat-treatment furnace: at first start mobile phone 2, all wireless proxy mechanism 6 and all heat-treatment furnaces 12; Serial communication in mobile phone 2 is set up under the control of module 9; Through with second antenna sets of first antenna, 3 wireless connections in one second preset antenna 4; Mobile phone 2 is set up corresponding virtual serial communication link with second bluetooth module, the 5 embedded wireless proxy mechanisms 6 that second antenna 4 that should preset is connected; And this wireless proxy mechanism 6 also passes through to handle its second bluetooth module 5 simultaneously; Through with a third antenna group of second antenna, 4 wireless connections of this wireless proxy mechanism 6 in all third antennas 10; All heat-treatment furnaces 12 that the 3rd all bluetooth module 11 that this wireless proxy mechanism 6 is connected with all third antennas 10 in this third antenna group is embedded in are set up corresponding virtual serial communication link; Mobile phone 2 start-up control modules 8 are handled first bluetooth module 1 subsequently; Second bluetooth module 5 in along virtual serial port communication link sending controling instruction to corresponding wireless proxy mechanism 6, second bluetooth module 5 operates the corresponding function assembly that the control command that receives sends to heat-treatment furnace 12 subsequently; Each heat-treatment furnace 12 of while sends to each self-corresponding second bluetooth module 5 according to the preset time cycle with its temperature inside parameter, vacuum degree parameter, carbon potential parameter, infiltration layer thickness parameter and unusual parameter; The virtual serial port communication link of second bluetooth module 5 through separately shows via being forwarded in the display module 7 of first bluetooth module 1 with temperature parameter, vacuum degree parameter, carbon potential parameter and infiltrate the layer thickness parameter and send in first bluetooth module 1 of mobile phone 2 then; Control the supplemental characteristic of not setting up the heat-treatment furnace 12 of virtual serial port communication link or not set up the heat-treatment furnace 12 of virtual serial port communication link if desired; The coverage of the corresponding wireless proxy mechanism 6 of third antenna 10 wireless connections that just the 3rd bluetooth module 11 that mobile phone 2 moves to this heat-treatment furnace 12 is embedded in are connected; Serial communication in mobile phone 2 is set up under the control of module 9 subsequently; Earlier first antenna 3 is carried out wireless connections with second antenna 4 that second bluetooth module 5 in this wireless proxy mechanism 6 is connected; And then mobile phone 2 set up corresponding virtual serial communication link with this wireless proxy mechanism 6; And this wireless proxy mechanism 6 also passes through to handle its second bluetooth module 5 simultaneously; Through with a third antenna group of second antenna, 4 wireless connections of this wireless proxy mechanism 6 in all third antennas 10; All heat-treatment furnaces 12 that the 3rd all bluetooth module 11 that this wireless proxy mechanism 6 is connected with all third antennas 10 in this third antenna group is embedded in are set up corresponding virtual serial communication link; Mobile phone 2 start-up control modules 8 are handled first bluetooth module 1 subsequently; Second bluetooth module 5 in along virtual serial port communication link sending controling instruction to corresponding wireless proxy mechanism 6, second bluetooth module 5 operates the corresponding function assembly that the control command that receives sends to heat-treatment furnace 12 subsequently; Each heat-treatment furnace 12 of while sends to each self-corresponding second bluetooth module 5 according to the preset time cycle with its temperature inside parameter, vacuum degree parameter, carbon potential parameter, infiltration layer thickness parameter and unusual parameter; The virtual serial port communication link of second bluetooth module 5 through separately shows via being forwarded in the display module 7 of first bluetooth module 1 with temperature parameter, vacuum degree parameter, carbon potential parameter and infiltrate the layer thickness parameter and send in first bluetooth module 1 of mobile phone 2 then.
Through adopting mobile phone far distance controlled heat-treatment furnace; Many heat-treatment furnace trouble caused of wiring had both been avoided in the workshop; Simultaneously the operator only need carry the mobile phone of Bluetooth technology, and it is outer any mobile just can to surpass 100 meters of heat-treatment furnaces in distance, and can control the heat-treatment furnace more than two simultaneously; Has mobility like this; Can in monitoring heat-treatment furnace operating state, handle other affairs, when the running parameter of heat-treatment furnace need be adjusted, can also utilize the mobile phone of subsidiary bluetooth to carry out the adjustment control of parameter in addition.
Claims (1)
1. the remote mobile phone wireless method for supervising of a heat-treatment furnace, adopt following supervising device:
Supervising device comprises and has the mobile phone (2) that display module (7), control module (8), serial communication are set up module (9) and embedded first bluetooth module (1); First bluetooth module (1) is connected with first antenna (3); One second antenna (4) wireless connections of presetting in first antenna (3) and second antenna sets; Every second antenna (4) in second antenna sets is connected with one second bluetooth module (5) respectively; Each second bluetooth module (5) is embedded in respectively in the wireless proxy mechanism (6); Every second antenna (4) in other second antenna sets also respectively with a third antenna group in all third antennas (10) wireless connections; Each third antenna (10) is connected with one the 3rd bluetooth module (11), and each the 3rd bluetooth module (11) is embedded in the heat-treatment furnace (12)
It is characterized in that:
At first start mobile phone (2), all wireless proxy mechanism (6) and all heat-treatment furnaces (12); Serial communication in mobile phone (2) is set up under the control of module (9); Through with second antenna sets of first antenna (3) wireless connections in preset one second antenna (4); Mobile phone (2) is set up corresponding virtual serial communication link with the embedded wireless proxy mechanism (6) of second bluetooth module (5) that second antenna (4) that should preset is connected; And this wireless proxy mechanism (6) also passes through to handle its second bluetooth module (5) simultaneously; Through with a third antenna group of second antenna (4) wireless connections of this wireless proxy mechanism (6) in all third antennas (10); All heat-treatment furnaces (12) that all the 3rd bluetooth modules (11) that this wireless proxy mechanism (6) is connected with interior all third antennas (10) of this third antenna group are embedded in are set up corresponding virtual serial communication link; Mobile phone (2) start-up control module (8) is handled first bluetooth module (1) subsequently; Second bluetooth module (5) in along virtual serial port communication link sending controling instruction to corresponding wireless proxy mechanism (6), second bluetooth module (5) operates the corresponding function assembly that the control command that receives sends to heat-treatment furnace (12) subsequently; Each heat-treatment furnace of while (12) sends to each self-corresponding second bluetooth module (5) according to the preset time cycle with its temperature inside parameter, vacuum degree parameter, carbon potential parameter, infiltration layer thickness parameter and unusual parameter; The virtual serial port communication link of second bluetooth module (5) through separately shows via being forwarded in the display module (7) of first bluetooth module (1) with temperature parameter, vacuum degree parameter, carbon potential parameter and infiltrate the layer thickness parameter and send in first bluetooth module (1) of mobile phone (2) then; Control the supplemental characteristic of not setting up the heat-treatment furnace (12) of virtual serial port communication link or not set up the heat-treatment furnace (12) of virtual serial port communication link if desired; Just mobile phone (2) is moved to the coverage of the corresponding wireless proxy mechanism (6) of third antenna (10) wireless connections that the 3rd bluetooth module (11) that is embedded in this heat-treatment furnace (12) is connected; Serial communication in mobile phone (2) is set up under the control of module (9) subsequently; Earlier first antenna (3) is carried out wireless connections with second antenna (4) that second bluetooth module (5) in this wireless proxy mechanism (6) is connected; And then mobile phone (2) and this wireless proxy mechanism (6) set up corresponding virtual serial communication link; And this wireless proxy mechanism (6) also passes through to handle its second bluetooth module (5) simultaneously; Through with a third antenna group of second antenna (4) wireless connections of this wireless proxy mechanism (6) in all third antennas (10); All heat-treatment furnaces (12) that all the 3rd bluetooth modules (11) that this wireless proxy mechanism (6) is connected with interior all third antennas (10) of this third antenna group are embedded in are set up corresponding virtual serial communication link; Mobile phone (2) start-up control module (8) is handled first bluetooth module (1) subsequently; Second bluetooth module (5) in along virtual serial port communication link sending controling instruction to corresponding wireless proxy mechanism (6), second bluetooth module (5) operates the corresponding function assembly that the control command that receives sends to heat-treatment furnace (12) subsequently; Each heat-treatment furnace of while (12) sends to each self-corresponding second bluetooth module (5) according to the preset time cycle with its temperature inside parameter, vacuum degree parameter, carbon potential parameter, infiltration layer thickness parameter and unusual parameter; The virtual serial port communication link of second bluetooth module (5) through separately shows via being forwarded in the display module (7) of first bluetooth module (1) with temperature parameter, vacuum degree parameter, carbon potential parameter and infiltrate the layer thickness parameter and send in first bluetooth module (1) of mobile phone (2) then.
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CN102945025A (en) * | 2012-10-23 | 2013-02-27 | 王轲 | Mobile monitoring method for heat treatment industrial equipment |
CN107514915A (en) * | 2016-06-16 | 2017-12-26 | 艾仕达医疗科技(深圳)有限公司 | Grill control systems |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1384616A (en) * | 2001-04-30 | 2002-12-11 | 晶讯科技股份有限公司 | Long-distance blue-teeth data transmitting method |
CN1395396A (en) * | 2001-06-25 | 2003-02-05 | 诺基亚有限公司 | Device and method for reducing interference |
CN2575684Y (en) * | 2002-07-29 | 2003-09-24 | 左文辑 | Mechanical light switch |
CN101110624A (en) * | 2006-07-20 | 2008-01-23 | 中兴通讯股份有限公司 | Blue tooth relay unit and its implementing method |
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CN101109954A (en) * | 2007-06-01 | 2008-01-23 | 清华大学 | Fuel cell vehicle controller monitoring system based on blue tooth communication |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1384616A (en) * | 2001-04-30 | 2002-12-11 | 晶讯科技股份有限公司 | Long-distance blue-teeth data transmitting method |
CN1395396A (en) * | 2001-06-25 | 2003-02-05 | 诺基亚有限公司 | Device and method for reducing interference |
CN2575684Y (en) * | 2002-07-29 | 2003-09-24 | 左文辑 | Mechanical light switch |
CN101110624A (en) * | 2006-07-20 | 2008-01-23 | 中兴通讯股份有限公司 | Blue tooth relay unit and its implementing method |
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Effective date of registration: 20201222 Address after: 224000 7 / F, D2 / F, Xinlong Plaza, 38 Renmin South Road, Xindu street, Chengnan New District, Yancheng City, Jiangsu Province (CND) Patentee after: Yancheng Yannan high tech Zone Urban Industry Development Co.,Ltd. Address before: 710021 Shaanxi province Xi'an Weiyang university campus of Shaanxi University of Science and Technology Patentee before: SHAANXI University OF SCIENCE & TECHNOLOGY |