CN104200261B - mining equipment monitoring identification card - Google Patents

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

Mining equipment monitors identification card

Technical field

The present invention relates to a kind of identification card, particularly a kind of mining equipment monitoring identification card is it is adaptable to mining equipment manages.

Background technology

At present, mining equipment, in management, is checked at the scene mainly by staff, is managed, but due to site environment ratio More complicated or inconvenient, management difficulty of getting up is larger, is not easy to real-time dynamic monitoring equipment distribution at the scene it is impossible to realize The modern management of equipment, is unfavorable for that equipment safety is normally run and played its maximum efficiency.It is the deficiencies in the prior art above.

Content of the invention

The purpose of the present invention is: a kind of mining equipment of design monitors identification card, is capable of equipment identification and distribution Showing in a computer, thus realizing the real-time dynamic monitoring of equipment, realizing the modern management of equipment.

The purpose of the present invention can be realized by following technical proposals:

This mining equipment monitors identification card, is made up of with the circuit board being loaded on inside the shell shell, it is characterized in that: described circuit Plate is made up of power circuit, data inputting interface, processor circuit and RF transmit-receive circuit, and power circuit is used for as circuit board system System provides 3v DC voltage；Data inputting interface is used for being connected with programmable device, by efficient coding data inputting to processor circuit Mixed-signal processor in, with arrange this mining equipment monitoring the unique recognition coding of identification card；Processor circuit is used for locating Reason is entered into efficient coding data in mixed-signal processor, is allowed to be converted to wireless encoding data signal, and is transferred to and penetrates Frequency transmission circuit；RF transmit-receive circuit is used for receiving the wireless encoding data signal that treated device processing of circuit is formed, and outwards Launch.

There are battery bat and electric capacity c5, c11, c05 and c06 in power circuit of the present invention；Have in data inputting interface Interface bu；There are mixed-signal processor u1, resistance r1 and r5 and electric capacity c1, c2 and c13, its mixed signal in processor circuit Model msp430 of processor u1；There are monolithic radio frequency transceiving chip u02, electric capacity c01～c04 and c07 in RF transmit-receive circuit ～c09, crystal oscillator x01, resistance r01 and r02, inductance l01 and l02 and antenna ant, the type of its monolithic radio frequency transceiving chip u02 Number be nrf2401；

Its annexation is: in power circuit, the positive pole of battery bat connects one end of electric capacity c5, c11, c05 and c06, And exporting 3v DC voltage vcc, the negative pole of battery bat connects the other end of electric capacity c5, c11, c05 and c06, and is grounded；Counting According in typing interface, it is grounded after the 4th and the 7th pin short circuit of interface bu, interface bu is by patching the jtag of winding displacement and programmable device Interface is connected；In processor circuit, the 1st pin of mixed-signal processor u1 connects 3v DC voltage vcc, and connects simultaneously One end of connecting resistance r1, one end of one end of resistance r5, one end of electric capacity c2 and electric capacity c13, the other end of resistance r1 connects electricity Hold one end of c1, the other end ground connection of electric capacity c1, the other end of resistance r5 is connected to the 9th pin of mixed-signal processor u1, The other end ground connection of electric capacity c2, and be connected with the 13rd and the 14th pin of mixed-signal processor u1, electric capacity c13's is another. simultaneously One end is grounded；In RF transmit-receive circuit, the 9th pin of monolithic radio frequency transceiving chip u02 connects one end of electric capacity c07, electric capacity The other end ground connection of c07, and be connected to the 10th pin of monolithic radio frequency transceiving chip u02, the of monolithic radio frequency transceiving chip u02 11 pins connect one end of one end, one end of resistance r01 and electric capacity c01 of crystal oscillator x01, and the of monolithic radio frequency transceiving chip u02 12 pins connect one end of the other end, the other end of resistance r01 and electric capacity c02 of crystal oscillator x01, and the other end of electric capacity c01 connects One end of the other end of electric capacity c02, one end of electric capacity c03 and electric capacity c04, and being grounded, the other end of electric capacity c03 and electric capacity c04 The other end be all connected to the 13rd pin of monolithic radio frequency transceiving chip u02, and be simultaneously connected with one end of inductance l02, inductance l02 The other end connect one end of inductance l01 and one end of electric capacity c08, and be simultaneously connected to the of monolithic radio frequency transceiving chip u02 14 pins, the other end of electric capacity c08 connects antenna ant, and the other end of inductance l01 connects one end of electric capacity c09, and is simultaneously connected with To the 15th pin of monolithic radio frequency transceiving chip u02, the other end ground connection of electric capacity c09, the 16th of monolithic radio frequency transceiving chip u02 the After the 18th pin short circuit, connect one end of resistance r02, and be grounded, the other end of resistance r02 is connected to monolithic radio frequency transmitting-receiving core 19th pin of piece u02, after the 20th and the 22nd pin short circuit of monolithic radio frequency transceiving chip u02, ground connection；Data inputting interface with Between processor circuit, the 1st, the 2nd, the 3rd, the 5th and the 6th pin of interface bu is connected respectively to the of mixed-signal processor u1 1st, the 11st, the 10th, the 8th and the 9th pin；Between RF transmit-receive circuit and power circuit, the of monolithic radio frequency transceiving chip u02 17th, after the mutual short circuit of the 21st and the 24th pin, connect the positive pole of battery bat；Between RF transmit-receive circuit and processor circuit, 8th～5, the 1st and the 23rd pin of monolithic radio frequency transceiving chip u02 is respectively connecting to the 2nd～7 of mixed-signal processor u1 and draws Foot.

In power circuit, battery bat is button cell to the present invention, its model cr2477.

, in data inputting interface, interface bu is by patching the jtag interface of winding displacement and 430 multi-functional programmable devices for the present invention It is connected, model lsd-prgs430-iiia of described 430 multi-functional programmable devices.

This mining equipment of the present invention monitors the shell of identification card, and its material is abs engineering plastics, its exposed surface area < 100cm².

The invention has the advantage that 1) this mining equipment monitoring identification card can arrange and have unique recognition coding, with Apparatus bound uses, and is capable of equipment identification and distribution shows, in a computer thus realizing the Real-time and Dynamic of equipment Monitoring, realizes the modern management of equipment；2) anticorrosion, protection against the tide, impact resistance.

Brief description

Fig. 1 is the board circuit block diagram that mining equipment monitors identification card；

Fig. 2 is the board circuit schematic diagram that mining equipment monitors identification card.

Specific embodiment

As shown in Figure 1, 2, this mining equipment monitoring identification card, is made up of with the circuit board being loaded on inside the shell shell, and it is special Levying is: described circuit board is made up of power circuit 1, data inputting interface 2, processor circuit 3 and RF transmit-receive circuit 4, power supply Circuit 1 is used for providing 3v DC voltage for circuit board systems；Data inputting interface 2 is used for being connected with programmable device, by efficient coding Data inputting, in the mixed-signal processor of processor circuit 3, is uniquely identified with arranging this mining equipment monitoring identification card Coding；Processor circuit 3 is used for processing the efficient coding data being entered in mixed-signal processor, is allowed to be converted to wireless volume Code data signal, and it is transferred to RF transmit-receive circuit 4；RF transmit-receive circuit 4 is used for receiving what treated device circuit 3 process was formed Wireless encoding data signal, and outwards launch.

As shown in Figure 1, 2, there are battery bat and electric capacity c5, c11, c05 and c06 in described power circuit 1；Data inputting There is interface bu in interface 2；There are mixed-signal processor u1, resistance r1 and r5 and electric capacity c1, c2 and c13 in processor circuit 3, Model msp430 of its mixed-signal processor u1；There are monolithic radio frequency transceiving chip u02, electric capacity c01 in RF transmit-receive circuit 4 ～c04 and c07～c09, crystal oscillator x01, resistance r01 and r02, inductance l01 and l02 and antenna ant, its monolithic radio frequency receives and dispatches core Model nrf2401 of piece u02；

Its annexation is: in power circuit 1, the positive pole of battery bat connects the one of electric capacity c5, c11, c05 and c06 End, and export 3v DC voltage vcc, the negative pole of battery bat connects the other end of electric capacity c5, c11, c05 and c06, and is grounded；? In data inputting interface 2, it is grounded after the 4th and the 7th pin short circuit of interface bu, interface bu is by patching winding displacement and programmable device Jtag interface is connected；In processor circuit 3, the 1st pin of mixed-signal processor u1 connects 3v DC voltage vcc, and It is simultaneously connected with one end, one end of one end of resistance r5, one end of electric capacity c2 and electric capacity c13 of resistance r1, the other end of resistance r1 Connect one end of electric capacity c1, the other end ground connection of electric capacity c1, the other end of resistance r5 is connected to the 9th of mixed-signal processor u1 the Pin, the other end ground connection of electric capacity c2, and be connected with the 13rd and the 14th pin of mixed-signal processor u1, electric capacity. simultaneously The other end ground connection of c13；In RF transmit-receive circuit 4, the 9th pin of monolithic radio frequency transceiving chip u02 connects the one of electric capacity c07 End, the other end ground connection of electric capacity c07, and it is connected to the 10th pin of monolithic radio frequency transceiving chip u02, monolithic radio frequency transceiving chip 11st pin of u02 connects one end of one end, one end of resistance r01 and electric capacity c01 of crystal oscillator x01, monolithic radio frequency transceiving chip 12nd pin of u02 connects one end of the other end, the other end of resistance r01 and electric capacity c02 of crystal oscillator x01, and electric capacity c01's is another End connects one end of the other end, one end of electric capacity c03 and electric capacity c04 of electric capacity c02, and is grounded, the other end of electric capacity c03 and electricity The other end holding c04 is all connected to the 13rd pin of monolithic radio frequency transceiving chip u02, and is simultaneously connected with one end of inductance l02, electricity The other end of sense l02 connects one end of inductance l01 and one end of electric capacity c08, and is simultaneously connected to monolithic radio frequency transceiving chip u02 The 14th pin, the other end of electric capacity c08 connects antenna ant, and the other end of inductance l01 connects one end of electric capacity c09, and simultaneously It is connected to the 15th pin of monolithic radio frequency transceiving chip u02, the other end of electric capacity c09 is grounded, monolithic radio frequency transceiving chip u02's After 16th and the 18th pin short circuit, connect one end of resistance r02, and be grounded, the other end of resistance r02 is connected to monolithic radio frequency and receives Send out the 19th pin of chip u02, after the 20th and the 22nd pin short circuit of monolithic radio frequency transceiving chip u02, ground connection；Data inputting connects Between mouth 2 and processor circuit 3, the 1st, the 2nd, the 3rd, the 5th and the 6th pin of interface bu is connected respectively to mixed-signal processor 1st, the 11st, the 10th, the 8th and the 9th pin of u1；Between RF transmit-receive circuit 4 and power circuit 1, monolithic radio frequency transceiving chip After the mutual short circuit of 17th, the 21st and the 24th pin of u02, connect the positive pole of battery bat；RF transmit-receive circuit 4 and processor electricity Between road 3, the 8th～5, the 1st and the 23rd pin of monolithic radio frequency transceiving chip u02 is respectively connecting to mixed-signal processor u1's 2nd～7 pin.

As shown in Fig. 2 in power circuit 1, battery bat is button cell, its model cr2477.Connect in data inputting In mouth 2, interface bu is connected with the jtag interface of 430 multi-functional programmable devices by patching winding displacement, described 430 multi-functional programmable devices Model lsd-prgs430-iiia.

This mining equipment monitors the shell of identification card, and its material is abs engineering plastics, its exposed surface area < 100cm².

The operation principle that this mining equipment monitors identification card is: by programmable device to identification card circuit board processor circuit 3 Interior mixed-signal processor u1 typing efficient coding data, to arrange the unique recognition coding of identification card, and to mixed signal Processor u1 carries out programming programming, after identification card setting unique identification coding, by identification card and apparatus bound, when equipment displacement When, identification card is in real time to emission wireless encoding data signal, the wireless encoding data signal of its transmitting and the equipment one bound One is corresponding.After coded excitation is gone out by identification card, the phase Sub Ammunition Supply Poi of base station in its effective range of receiving, carry out receiving, decode, Storage, waits and computer communication.Computer sends instruction, receives the data that transmits of phase Sub Ammunition Supply Poi and locate to phase Sub Ammunition Supply Poi Reason data, obtains corresponding report, so that device distribution state is shown in a computer, thus realizing equipment state digital management Purpose.

Claims (4)

1. a kind of mining equipment monitors identification card, is made up of with the circuit board being loaded on inside the shell shell, it is characterized in that: described circuit Plate is made up of power circuit (1), data inputting interface (2), processor circuit (3) and RF transmit-receive circuit (4), power circuit (1) it is used for providing 3v DC voltage for circuit board systems；Data inputting interface (2) is used for being connected with programmable device, by efficient coding Data inputting, in the mixed-signal processor of processor circuit (3), is uniquely known with arranging this mining equipment monitoring identification card Do not encode；Processor circuit (3) is used for processing the efficient coding data being entered in mixed-signal processor, is allowed to be converted to no Line coding data signal, and it is transferred to RF transmit-receive circuit (4)；RF transmit-receive circuit (4) is used for receiving treated device circuit (3) The wireless encoding data signal that process is formed, and outwards launch；

There are battery bat and electric capacity c5, c11, c05 and c06 in described power circuit (1)；Data inputting interface has interface in (2) bu；There are mixed-signal processor u1, resistance r1 and r5 and electric capacity c1, c2 and c13, its mixed signal in processor circuit (3) Model msp430 of processor u1；Have in RF transmit-receive circuit (4) monolithic radio frequency transceiving chip u02, electric capacity c01～c04 and C07～c09, crystal oscillator x01, resistance r01 and r02, inductance l01 and l02 and antenna ant, its monolithic radio frequency transceiving chip u02's Model nrf2401；

Its annexation is: in power circuit (1), the positive pole of battery bat connects one end of electric capacity c5, c11, c05 and c06, And exporting 3v DC voltage vcc, the negative pole of battery bat connects the other end of electric capacity c5, c11, c05 and c06, and is grounded；Counting According in typing interface (2), it is grounded after the 4th and the 7th pin short circuit of interface bu, interface bu is by patching winding displacement and programmable device Jtag interface is connected；In processor circuit (3), the 1st pin of mixed-signal processor u1 connects 3v DC voltage vcc, And it is simultaneously connected with one end of resistance r1, one end of one end of resistance r5, one end of electric capacity c2 and electric capacity c13, resistance r1's is another End connects one end of electric capacity c1, the other end ground connection of electric capacity c1, and the other end of resistance r5 is connected to mixed-signal processor u1's 9th pin, the other end ground connection of electric capacity c2, and be connected with the 13rd and the 14th pin of mixed-signal processor u1, electricity. simultaneously Hold the other end ground connection of c13；In RF transmit-receive circuit (4), the 9th pin of monolithic radio frequency transceiving chip u02 connects electric capacity c07 One end, the other end ground connection of electric capacity c07, and be connected to the 10th pin of monolithic radio frequency transceiving chip u02, monolithic radio frequency is received and dispatched 11st pin of chip u02 connects one end of one end, one end of resistance r01 and electric capacity c01 of crystal oscillator x01, and monolithic radio frequency is received and dispatched 12nd pin of chip u02 connects one end of the other end, the other end of resistance r01 and electric capacity c02 of crystal oscillator x01, electric capacity c01's The other end connects one end of the other end, one end of electric capacity c03 and electric capacity c04 of electric capacity c02, and is grounded, the other end of electric capacity c03 It is all connected to the 13rd pin of monolithic radio frequency transceiving chip u02 with the other end of electric capacity c04, and be simultaneously connected with the one of inductance l02 End, the other end of inductance l02 connects one end of inductance l01 and one end of electric capacity c08, and is simultaneously connected to monolithic radio frequency transmitting-receiving core 14th pin of piece u02, the other end of electric capacity c08 connects antenna ant, and the other end of inductance l01 connects one end of electric capacity c09, And it is simultaneously connected to the 15th pin of monolithic radio frequency transceiving chip u02, the other end ground connection of electric capacity c09, monolithic radio frequency receives and dispatches core After 16th and the 18th pin short circuit of piece u02, connect one end of resistance r02, and be grounded, the other end of resistance r02 is connected to list 19th pin of piece rf chip u02, after the 20th and the 22nd pin short circuit of monolithic radio frequency transceiving chip u02, ground connection；Number According between 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 mixed Close the 1st, the 11st, the 10th, the 8th and the 9th pin of signal processor u1；Between RF transmit-receive circuit (4) and power circuit (1), After the mutual short circuit of 17th, the 21st and the 24th pin of monolithic radio frequency transceiving chip u02, connect the positive pole of battery bat；Radio frequency is received Between Power Generation Road (4) and processor circuit (3), the 8th～5, the 1st and the 23rd pin of monolithic radio frequency transceiving chip u02 connects respectively It is connected to the 2nd～7 pin of mixed-signal processor u1.

2. mining equipment according to claim 1 monitors identification card, it is characterized in that: in power circuit (1), battery bat For button cell, its model cr2477.

3. mining equipment according to claim 1 and 2 monitors identification card, it is characterized in that: in data inputting interface (2), Interface bu is connected with the jtag interface of 430 multi-functional programmable devices by patching winding displacement, the model of described 430 multi-functional programmable devices For lsd-prgs430-iiia.

4. the mining equipment monitoring identification card according to claim 1 or 2, is characterized in that: this mining equipment monitoring identification card Shell, its material be abs engineering plastics, its exposed surface area < 100cm².