CN104200261A - Mining equipment monitoring identification card - Google Patents
Mining equipment monitoring identification card Download PDFInfo
- Publication number
- CN104200261A CN104200261A CN201410428398.9A CN201410428398A CN104200261A CN 104200261 A CN104200261 A CN 104200261A CN 201410428398 A CN201410428398 A CN 201410428398A CN 104200261 A CN104200261 A CN 104200261A
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- radio frequency
- transceiving chip
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Abstract
The invention provides a mining equipment monitoring identification card. The mining equipment monitoring identification card is composed of a shell and a circuit board mounted in the shell; the circuit board is composed of a power circuit, a data entry interface, a processor circuit and a radio-frequency transceiver circuit; the power circuit is used for providing 3V DC voltage for the circuit board system; the data entry interface is connected with a programmer and used for entering effective coded data into the mixed signal processor of the processor circuit so as to set an unique identification code for the mining equipment monitoring identification card; the processor circuit is used for processing the effective coded data entered in the mixed signal processor, converting the effective coded data into a wireless coded data signal and transmitting the wireless coded data signal to the radio-frequency transceiver circuit; the radio-frequency transceiver circuit is used for receiving the wireless coded data signal formed by virtue of processing of the processor circuit and transmitting the wireless coded data signal to the outside. The identification card can be set with the unique identification code and is bound with equipment in use; the identification card is capable of realizing equipment identification and displaying the distribution conditions of equipment in a computer, and therefore, real-time dynamic monitoring and modern management on equipment can be realized.
Description
Technical field
The present invention relates to a kind of identification card, particularly a kind of mining equipment monitoring identification card, is applicable to mining equipment management.
Background technology
At present, mining equipment is when management, mainly by staff, check at the scene, manage, but due to site environment more complicated or inconvenience, manage difficulty larger, be not easy to real-time dynamic monitoring equipment distribution at the scene, can not realize the modern management of equipment, be unfavorable for that device security normally moves and bring into play its maximum efficiency.Be more than the deficiencies in the prior art.
Summary of the invention
The object of the invention is: design a kind of mining equipment monitoring identification card, can realize recognition of devices and distribution shows in computing machine, thereby the real-time dynamic monitoring of the equipment of realization is realized the modern management of equipment.
Object of the present invention can realize by following technical proposals:
This mining equipment monitoring identification card, by shell and the circuit board being loaded in shell, formed, it is characterized in that: described circuit board is comprised of power circuit, data typing interface, processor circuit and RF transmit-receive circuit, and power circuit is used to circuit board systems that 3V DC voltage is provided; Data typing interface, for being connected with programmable device, is entered into efficient coding data in the mixed-signal processor of processor circuit, so that the unique recognition coding of this mining equipment monitoring identification card to be set; Processor circuit, for the treatment of the efficient coding data that are entered in mixed-signal processor, makes it to be converted to wireless encoding data-signal, and is transferred to RF transmit-receive circuit; The wireless encoding data-signal that RF transmit-receive circuit forms for receiving treated device processing of circuit, and outwards launch.
In power circuit of the present invention, there are battery BAT and capacitor C 5, C11, C05 and C06; In data typing interface, there is interface BU; In processor circuit, have mixed-signal processor U1, resistance R 1 and R5 and capacitor C 1, C2 and C13, the model of its mixed-signal processor U1 is MSP430; In RF transmit-receive circuit, have monolithic radio frequency transceiving chip U02, capacitor C 01~C04 and C07~C09, crystal oscillator X01, resistance R 01 and R02, inductance L 01 and L02 and antenna ANT, the model of its monolithic radio frequency transceiving chip U02 is NRF2401;
Its annexation is: in power circuit, the positive pole of battery BAT connects one end of capacitor C 5, C11, C05 and C06, and exports 3V DC voltage VCC, and the negative pole of battery BAT connects the other end of capacitor C 5, C11, C05 and C06, and ground connection, in data typing interface, ground connection after the 4th and the 7th pin short circuit of interface BU, interface BU is connected with the jtag interface of programmable device by patching winding displacement, in processor circuit, the 1st pin of mixed-signal processor U1 connects 3V DC voltage VCC, and one end, one end of resistance R 5, one end of one end of capacitor C 2 and capacitor C 13 of while contact resistance R1, the other end of resistance R 1 connects one end of capacitor C 1, the other end ground connection of capacitor C 1, the other end of resistance R 5 is connected to the 9th pin of mixed-signal processor U1, the other end ground connection of capacitor C 2, and be connected with the 14th pin with the 13rd of mixed-signal processor U1, the other end ground connection of capacitor C 13, simultaneously in RF transmit-receive circuit, the 9th pin of monolithic radio frequency transceiving chip U02 connects one end of capacitor C 07, the other end ground connection of capacitor C 07, and be connected to the 10th pin of monolithic radio frequency transceiving chip U02, the 11st pin of monolithic radio frequency transceiving chip U02 connects one end of crystal oscillator X01, one end of one end of resistance R 01 and capacitor C 01, the 12nd pin of monolithic radio frequency transceiving chip U02 connects the other end of crystal oscillator X01, one end of the other end of resistance R 01 and capacitor C 02, the other end of capacitor C 01 connects the other end of capacitor C 02, one end of one end of capacitor C 03 and capacitor C 04, and ground connection, the other end of the other end of capacitor C 03 and capacitor C 04 is all connected to the 13rd pin of monolithic radio frequency transceiving chip U02, and connect one end of inductance L 02 simultaneously, the other end of inductance L 02 connects one end of inductance L 01 and one end of capacitor C 08, and be connected to the 14th pin of monolithic radio frequency transceiving chip U02 simultaneously, the other end of capacitor C 08 connects antenna ANT, the other end of inductance L 01 connects one end of capacitor C 09, and be connected to the 15th pin of monolithic radio frequency transceiving chip U02 simultaneously, the other end ground connection of capacitor C 09, after the 16th and the 18th pin short circuit of monolithic radio frequency transceiving chip U02, one end of contact resistance R02, and ground connection, the other end of resistance R 02 is connected to the 19th pin of monolithic radio frequency transceiving chip U02, after the 20th and the 22nd pin short circuit of monolithic radio frequency transceiving chip U02, ground connection, between data typing interface and processor circuit, the 1st, the 2nd, the 3rd, the 5th and the 6th pin of interface BU is connected respectively to the 1st, the 11st, the 10th, the 8th and the 9th pin of mixed-signal processor U1, between RF transmit-receive circuit and power circuit, after the mutual short circuit of the 17th, the 21st and the 24th pin of monolithic radio frequency transceiving chip U02, connect the positive pole of battery BAT, between RF transmit-receive circuit and processor circuit, the 8th~5, the 1st and the 23rd pin of monolithic radio frequency transceiving chip U02 is connected to respectively 2nd~7 pins of mixed-signal processor U1.
The present invention is in power circuit, and battery BAT is button cell, and its model is CR2477.
The present invention is in data typing interface, and interface BU is connected with the jtag interface of 430 multi-functional programmable devices by patching winding displacement, and the model of described 430 multi-functional programmable devices is LSD-PRGS430-IIIA.
The shell of this mining equipment monitoring identification card of the present invention, its material is ABS engineering plastics, its exposed surface area <100cm
2.
Advantage of the present invention is: 1) this mining equipment monitoring identification card can arrange and have unique recognition coding, use with apparatus bound, recognition of devices can be realized and distribution shows in computing machine, thereby the real-time dynamic monitoring of the equipment of realization is realized the modern management of equipment; 2) anticorrosion, protection against the tide, shock-resistant.
Accompanying drawing explanation
Fig. 1 is the board circuit block scheme of mining equipment monitoring identification card;
Fig. 2 is the board circuit schematic diagram of mining equipment monitoring identification card.
Embodiment
As shown in Figure 1, 2, this mining equipment monitoring identification card, by shell and the circuit board being loaded in shell, formed, it is characterized in that: described circuit board is comprised of power circuit 1, data typing interface 2, processor circuit 3 and RF transmit-receive circuit 4, and power circuit 1 is used to circuit board systems that 3V DC voltage is provided; Data typing interface 2, for being connected with programmable device, is entered into efficient coding data in the mixed-signal processor of processor circuit 3, so that the unique recognition coding of this mining equipment monitoring identification card to be set; Processor circuit 3, for the treatment of the efficient coding data that are entered in mixed-signal processor, makes it to be converted to wireless encoding data-signal, and is transferred to RF transmit-receive circuit 4; RF transmit-receive circuit 4 processes for receiving treated device circuit 3 the wireless encoding data-signal forming, and outwards launches.
As shown in Figure 1, 2, in described power circuit 1, there are battery BAT and capacitor C 5, C11, C05 and C06; In data typing interface 2, there is interface BU; In processor circuit 3, have mixed-signal processor U1, resistance R 1 and R5 and capacitor C 1, C2 and C13, the model of its mixed-signal processor U1 is MSP430; In RF transmit-receive circuit 4, have monolithic radio frequency transceiving chip U02, capacitor C 01~C04 and C07~C09, crystal oscillator X01, resistance R 01 and R02, inductance L 01 and L02 and antenna ANT, the model of its monolithic radio frequency transceiving chip U02 is NRF2401;
Its annexation is: in power circuit 1, the positive pole of battery BAT connects one end of capacitor C 5, C11, C05 and C06, and exports 3V DC voltage VCC, and the negative pole of battery BAT connects the other end of capacitor C 5, C11, C05 and C06, and ground connection, in data typing interface 2, ground connection after the 4th and the 7th pin short circuit of interface BU, interface BU is connected with the jtag interface of programmable device by patching winding displacement, in processor circuit 3, the 1st pin of mixed-signal processor U1 connects 3V DC voltage VCC, and one end, one end of resistance R 5, one end of one end of capacitor C 2 and capacitor C 13 of while contact resistance R1, the other end of resistance R 1 connects one end of capacitor C 1, the other end ground connection of capacitor C 1, the other end of resistance R 5 is connected to the 9th pin of mixed-signal processor U1, the other end ground connection of capacitor C 2, and be connected with the 14th pin with the 13rd of mixed-signal processor U1, the other end ground connection of capacitor C 13, simultaneously in RF transmit-receive circuit 4, the 9th pin of monolithic radio frequency transceiving chip U02 connects one end of capacitor C 07, the other end ground connection of capacitor C 07, and be connected to the 10th pin of monolithic radio frequency transceiving chip U02, the 11st pin of monolithic radio frequency transceiving chip U02 connects one end of crystal oscillator X01, one end of one end of resistance R 01 and capacitor C 01, the 12nd pin of monolithic radio frequency transceiving chip U02 connects the other end of crystal oscillator X01, one end of the other end of resistance R 01 and capacitor C 02, the other end of capacitor C 01 connects the other end of capacitor C 02, one end of one end of capacitor C 03 and capacitor C 04, and ground connection, the other end of the other end of capacitor C 03 and capacitor C 04 is all connected to the 13rd pin of monolithic radio frequency transceiving chip U02, and connect one end of inductance L 02 simultaneously, the other end of inductance L 02 connects one end of inductance L 01 and one end of capacitor C 08, and be connected to the 14th pin of monolithic radio frequency transceiving chip U02 simultaneously, the other end of capacitor C 08 connects antenna ANT, the other end of inductance L 01 connects one end of capacitor C 09, and be connected to the 15th pin of monolithic radio frequency transceiving chip U02 simultaneously, the other end ground connection of capacitor C 09, after the 16th and the 18th pin short circuit of monolithic radio frequency transceiving chip U02, one end of contact resistance R02, and ground connection, the other end of resistance R 02 is connected to the 19th pin of monolithic radio frequency transceiving chip U02, after the 20th and the 22nd pin short circuit of monolithic radio frequency transceiving chip U02, ground connection, between data typing interface 2 and processor circuit 3, the 1st, the 2nd, the 3rd, the 5th and the 6th pin of interface BU is connected respectively to the 1st, the 11st, the 10th, the 8th and the 9th pin of mixed-signal processor U1, between RF transmit-receive circuit 4 and power circuit 1, after the mutual short circuit of the 17th, the 21st and the 24th pin of monolithic radio frequency transceiving chip U02, connect the positive pole of battery BAT, between RF transmit-receive circuit 4 and processor circuit 3, the 8th~5, the 1st and the 23rd pin of monolithic radio frequency transceiving chip U02 is connected to respectively 2nd~7 pins of mixed-signal processor U1.
As shown in Figure 2, in power circuit 1, battery BAT is button cell, and its model is CR2477.In data typing interface 2, interface BU is connected with the jtag interface of 430 multi-functional programmable devices by patching winding displacement, and the model of described 430 multi-functional programmable devices is LSD-PRGS430-IIIA.
The shell of this mining equipment monitoring identification card, its material is ABS engineering plastics, its exposed surface area <100cm
2.
The principle of work of this mining equipment monitoring identification card is: by programmable device to the mixed-signal processor U1 typing efficient coding data in identification card circuit board processor circuit 3, so that the unique recognition coding of identification card to be set, and mixed-signal processor U1 is carried out to programming programming, identification card arranges after unique recognition coding, by identification card and apparatus bound, when equipment displacement, identification card is outwards launched wireless encoding data-signal in real time, and the wireless encoding data-signal of its transmitting is corresponding one by one with the equipment of binding.After identification card is gone out coded excitation, the phase Sub Ammunition Supply Poi of base station, in its effective range of receiving, receives, decodes, stores, and waits for and computer communication.Computing machine sends instruction, receives data deal with data that phase Sub Ammunition Supply Poi transmits phase Sub Ammunition Supply Poi, obtains corresponding report, device distribution state is shown in computing machine, thereby realize the object of equipment state digital management.
Claims (5)
1. a mining equipment is monitored identification card, by shell and the circuit board being loaded in shell, formed, it is characterized in that: described circuit board is comprised of power circuit (1), data typing interface (2), processor circuit (3) and RF transmit-receive circuit (4), and power circuit (1) is used to circuit board systems that 3V DC voltage is provided; Data typing interface (2), for being connected with programmable device, is entered into efficient coding data in the mixed-signal processor of processor circuit (3), so that the unique recognition coding of this mining equipment monitoring identification card to be set; Processor circuit (3), for the treatment of the efficient coding data that are entered in mixed-signal processor, makes it to be converted to wireless encoding data-signal, and is transferred to RF transmit-receive circuit (4); RF transmit-receive circuit (4) processes for receiving treated device circuit (3) the wireless encoding data-signal forming, and outwards launches.
2. mining equipment monitoring identification card according to claim 1, is characterized in that: in described power circuit (1), have battery BAT and capacitor C 5, C11, C05 and C06; In data typing interface (2), there is interface BU; In processor circuit (3), have mixed-signal processor U1, resistance R 1 and R5 and capacitor C 1, C2 and C13, the model of its mixed-signal processor U1 is MSP430; In RF transmit-receive circuit (4), have monolithic radio frequency transceiving chip U02, capacitor C 01~C04 and C07~C09, crystal oscillator X01, resistance R 01 and R02, inductance L 01 and L02 and antenna ANT, the model of its monolithic radio frequency transceiving chip U02 is NRF2401;
Its annexation is: in power circuit (1), the positive pole of battery BAT connects one end of capacitor C 5, C11, C05 and C06, and exports 3V DC voltage VCC, and the negative pole of battery BAT connects the other end of capacitor C 5, C11, C05 and C06, and ground connection, in data typing interface (2), ground connection after the 4th and the 7th pin short circuit of interface BU, interface BU is connected with the jtag interface of programmable device by patching winding displacement, in processor circuit (3), the 1st pin of mixed-signal processor U1 connects 3V DC voltage VCC, and one end, one end of resistance R 5, one end of one end of capacitor C 2 and capacitor C 13 of while contact resistance R1, the other end of resistance R 1 connects one end of capacitor C 1, the other end ground connection of capacitor C 1, the other end of resistance R 5 is connected to the 9th pin of mixed-signal processor U1, the other end ground connection of capacitor C 2, and be connected with the 14th pin with the 13rd of mixed-signal processor U1, the other end ground connection of capacitor C 13, simultaneously in RF transmit-receive circuit (4), the 9th pin of monolithic radio frequency transceiving chip U02 connects one end of capacitor C 07, the other end ground connection of capacitor C 07, and be connected to the 10th pin of monolithic radio frequency transceiving chip U02, the 11st pin of monolithic radio frequency transceiving chip U02 connects one end of crystal oscillator X01, one end of one end of resistance R 01 and capacitor C 01, the 12nd pin of monolithic radio frequency transceiving chip U02 connects the other end of crystal oscillator X01, one end of the other end of resistance R 01 and capacitor C 02, the other end of capacitor C 01 connects the other end of capacitor C 02, one end of one end of capacitor C 03 and capacitor C 04, and ground connection, the other end of the other end of capacitor C 03 and capacitor C 04 is all connected to the 13rd pin of monolithic radio frequency transceiving chip U02, and connect one end of inductance L 02 simultaneously, the other end of inductance L 02 connects one end of inductance L 01 and one end of capacitor C 08, and be connected to the 14th pin of monolithic radio frequency transceiving chip U02 simultaneously, the other end of capacitor C 08 connects antenna ANT, the other end of inductance L 01 connects one end of capacitor C 09, and be connected to the 15th pin of monolithic radio frequency transceiving chip U02 simultaneously, the other end ground connection of capacitor C 09, after the 16th and the 18th pin short circuit of monolithic radio frequency transceiving chip U02, one end of contact resistance R02, and ground connection, the other end of resistance R 02 is connected to the 19th pin of monolithic radio frequency transceiving chip U02, after the 20th and the 22nd pin short circuit of monolithic radio frequency transceiving chip U02, ground connection, between data typing interface (2) and processor circuit (3), the 1st, the 2nd, the 3rd, the 5th and the 6th pin of interface BU is connected respectively to the 1st, the 11st, the 10th, the 8th and the 9th pin of mixed-signal processor U1, between RF transmit-receive circuit (4) and power circuit (1), after the mutual short circuit of the 17th, the 21st and the 24th pin of monolithic radio frequency transceiving chip U02, connect the positive pole of battery BAT, between RF transmit-receive circuit (4) and processor circuit (3), the 8th~5, the 1st and the 23rd pin of monolithic radio frequency transceiving chip U02 is connected to respectively 2nd~7 pins of mixed-signal processor U1.
3. mining equipment monitoring identification card according to claim 2, is characterized in that: in power circuit (1), battery BAT is button cell, and its model is CR2477.
4. according to the mining equipment monitoring identification card described in claim 2 or 3, it is characterized in that: in data typing interface (2), interface BU is connected with the jtag interface of 430 multi-functional programmable devices by patching winding displacement, and the model of described 430 multi-functional programmable devices is LSD-PRGS430-IIIA.
5. according to the mining equipment monitoring identification card described in claim 1 or 2 or 3, it is characterized in that: the shell of this mining equipment monitoring identification card, its material is ABS engineering plastics, its exposed surface area <100cm
2.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201410428398.9A CN104200261B (en) | 2014-08-28 | 2014-08-28 | mining equipment monitoring identification card |
Applications Claiming Priority (1)
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CN201410428398.9A CN104200261B (en) | 2014-08-28 | 2014-08-28 | mining equipment monitoring identification card |
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CN104200261A true CN104200261A (en) | 2014-12-10 |
CN104200261B CN104200261B (en) | 2017-02-01 |
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CN201410428398.9A Expired - Fee Related CN104200261B (en) | 2014-08-28 | 2014-08-28 | mining equipment monitoring identification card |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201707780U (en) * | 2010-05-24 | 2011-01-12 | 淮北市思苑科技有限公司 | Remote monitoring system for mineral resource excavation surface operation |
US20110205033A1 (en) * | 2008-03-26 | 2011-08-25 | Lakshmi Kanta Bandyopadhyay | Wireless information and safety system for mines |
CN102419824A (en) * | 2010-09-27 | 2012-04-18 | 晁顶 | Intelligent identification card for mines |
-
2014
- 2014-08-28 CN CN201410428398.9A patent/CN104200261B/en not_active Expired - Fee Related
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20110205033A1 (en) * | 2008-03-26 | 2011-08-25 | Lakshmi Kanta Bandyopadhyay | Wireless information and safety system for mines |
CN201707780U (en) * | 2010-05-24 | 2011-01-12 | 淮北市思苑科技有限公司 | Remote monitoring system for mineral resource excavation surface operation |
CN102419824A (en) * | 2010-09-27 | 2012-04-18 | 晁顶 | Intelligent identification card for mines |
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Granted publication date: 20170201 Termination date: 20170828 |