CN104131839B - A kind of underground work mode method of adjustment of energy-saving type miner equipment - Google Patents

A kind of underground work mode method of adjustment of energy-saving type miner equipment Download PDF

Info

Publication number
CN104131839B
CN104131839B CN201310294642.2A CN201310294642A CN104131839B CN 104131839 B CN104131839 B CN 104131839B CN 201310294642 A CN201310294642 A CN 201310294642A CN 104131839 B CN104131839 B CN 104131839B
Authority
CN
China
Prior art keywords
miner
equipment
card
supply voltage
parts
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201310294642.2A
Other languages
Chinese (zh)
Other versions
CN104131839A (en
Inventor
杨永东
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chongqing Jinxin Intelligent Technology Co Ltd
Original Assignee
Chongqing Jinxin Intelligent Technology Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Chongqing Jinxin Intelligent Technology Co Ltd filed Critical Chongqing Jinxin Intelligent Technology Co Ltd
Priority to CN201310294642.2A priority Critical patent/CN104131839B/en
Publication of CN104131839A publication Critical patent/CN104131839A/en
Application granted granted Critical
Publication of CN104131839B publication Critical patent/CN104131839B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The invention discloses a kind of underground work mode method of adjustment of energy-saving type miner equipment, relate to the working method adjustment technology of mine lower area energy-saving type miner equipment, described method comprises: the diverse location under mine arranges the some radio-frequency cards comprising start card, locator card and shutdown card respectively; Described miner's equipment detects in real time to described radio-frequency card; When described miner's Equipment Inspection is to described start card, all parts in miner's equipment are made to be in opening; During in described miner's equipment, all parts are in opening, the positioning mark data of the locator card detected are transferred to aboveground by miner's equipment; And when described miner's Equipment Inspection is to described shutdown card, makes to keep holding state for the parts detecting radio-frequency card in miner's equipment, make miscellaneous part be in off-mode.The present invention according to the position of energy-saving type miner equipment and supply voltage, can adjust underground work mode.

Description

A kind of underground work mode method of adjustment of energy-saving type miner equipment
Technical field
The present invention relates to the working method adjustment technology of mine lower area energy-saving type miner equipment.
Background technology
On mine administrative staff can not in time and underground work personnel carry out instant messaging, distribution and the handling situations of personnel in the pit can not be grasped in real time, be difficult to the accurate location of carrying out personnel, therefore, mine safety ubiquity hidden danger.
At present, underground location generally adopts RFID REID.Specifically, at down-hole, be read as unique RF tag of personnel in the pit's allocation by placing each tag reading device in down-hole, and upload process is carried out to the information read, thus complete the location to personnel in the pit.After the personnel of going into the well enter down-hole, as long as pass through or close any one card reader be placed in tunnel, namely card reader can sense signal at once, exists side by side to upload on the computer of aboveground control centre by signal, makes aboveground administrative staff carry out coarse localization to personnel in the pit.
Further, while miner's equipment realizes positioning function, other functions such as call can also be realized.The function realized along with miner's equipment is on the increase, and its power consumption is also in few increase.In miner's equipment use process, along with the electricity of power supply constantly consumes, if repertoire is all opened, miner's equipment possibly cannot meet the normal work requirements of underground work personnel.At this moment, the underground work mode of adjustment miner equipment is in time needed.
Summary of the invention
The object of the present invention is to provide a kind of underground work mode method of adjustment of energy-saving type miner equipment, in time according to working method under power supply power consumption condition adjust well, thus the groundwork demand of underground work personnel can be met.
According to an aspect of the present invention, provide a kind of underground work mode method of adjustment of energy-saving type miner equipment, comprising:
Diverse location under mine arranges the some radio-frequency cards comprising start card, locator card and shutdown card respectively;
Described miner's equipment detects in real time to described radio-frequency card;
When described miner's Equipment Inspection is to described start card, all parts in miner's equipment are made to be in opening;
During in described miner's equipment, all parts are in opening, the positioning mark data of the locator card detected are transferred to aboveground by miner's equipment; And
When described miner's Equipment Inspection is to described shutdown card, makes to keep holding state for the parts detecting radio-frequency card in miner's equipment, make its miscellaneous part be in off-mode.
Preferably, also comprise:
During in described miner's equipment, all parts are in opening, the step that miner's equipment is taken borehole image.
Preferably, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, and when detecting that supply voltage is greater than image taking standard voltage value, miner's equipment is taken borehole image.
Preferably, also comprise:
During described miner's equipment is taken borehole image, captured borehole image is transferred to aboveground by miner's equipment.
Preferably, during miner's equipment is taken borehole image, miner's equipment detects its supply voltage and network speed, when detecting that supply voltage is greater than image transmitting standard voltage value and network speed is greater than network speed standard value, captured borehole image is transferred to aboveground by miner's equipment, wherein, described image taking standard voltage value is less than image transmitting standard voltage value.
Preferably, during miner's equipment is taken borehole image, miner's equipment detects its supply voltage and network speed, when detecting that supply voltage is greater than image taking standard voltage value and network speed is less than or equal to network speed standard value, miner's equipment stops captured borehole image to be transferred to aboveground, and the borehole image captured by preserving.
Preferably, also comprise:
Under mine, recharged card is set for the battery recharge room place for miner's equipment charge;
Described miner's equipment detects in real time to described recharged card;
When described miner's Equipment Inspection is to described recharged card, and when supply voltage is greater than image taking standard voltage value, borehole image that is captured and that preserve is transferred to aboveground by described miner's equipment.
Preferably, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, and when detecting that supply voltage is less than or equal to image taking standard voltage value, miner's equipment stops taking borehole image.
Preferably, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, when detecting that supply voltage is greater than data transmission voltage standard value, miner's equipment by the positioning mark real-time data transmission of locator card that detects to aboveground.
Preferably, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, and when detecting that supply voltage is less than or equal to data transmission voltage standard value, the positioning mark data timing of the locator card detected is transferred to aboveground by miner's equipment.
Compared with prior art, beneficial effect of the present invention is:
1, the present invention is by start card and shutdown card, automatically can control unlatching or the shutdown of miner's equipment in time, for the underground work personnel carrying miner's equipment offer convenience;
2, the present invention is by working method under real-time detection supply voltage adjust well, in the process that supply voltage constantly reduces, non-essential power consumption can be closed in time, extend the working time of miner's equipment, thus ensure the safety of carrying the underground work personnel of miner's equipment further.
Accompanying drawing explanation
Fig. 1 is the underground work mode method of adjustment theory diagram of energy-saving type miner equipment provided by the invention;
Fig. 2 is the underground work mode method of adjustment flow chart of the energy-saving type miner equipment that the embodiment of the present invention provides;
Fig. 3 is the structured flowchart of the energy-saving type miner equipment that the embodiment of the present invention provides;
Fig. 4 is the concrete structure block diagram of the shown energy-saving type miner equipment of Fig. 3;
Fig. 5 is the underground work mode method of adjustment application scenarios figure of the energy-saving type miner equipment that the embodiment of the present invention provides.
Detailed description of the invention
Below in conjunction with accompanying drawing to a preferred embodiment of the present invention will be described in detail, should be appreciated that following illustrated preferred embodiment is only for instruction and explanation of the present invention, is not intended to limit the present invention.
Fig. 1 is the underground work mode method of adjustment theory diagram of energy-saving type miner equipment provided by the invention, as shown in Figure 1, comprising:
Step 101, diverse location under mine arrange the some radio-frequency cards comprising start card, locator card and shutdown card respectively.
Step 102, described miner's equipment detect in real time to described radio-frequency card.
Step 103, when described miner's Equipment Inspection is to described start card, all parts in miner's equipment are made to be in opening.
Step 104, during in described miner's equipment, all parts are in opening, the positioning mark data of the locator card detected are transferred to aboveground by miner's equipment.
Furtherly, during in described miner's equipment, all parts are in opening, also comprise the step that miner's equipment is taken borehole image, specifically, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, when detecting that supply voltage is greater than image taking standard voltage value, miner's equipment is taken borehole image, otherwise miner's equipment stops taking borehole image.
Furtherly, during described miner's equipment is taken borehole image, also comprise miner's equipment and captured borehole image is transferred to aboveground step, specifically, during miner's equipment is taken borehole image, miner's equipment detects its supply voltage and network speed, when detecting that supply voltage is greater than image transmitting standard voltage value and network speed is greater than network speed standard value, captured borehole image is transferred to aboveground by miner's equipment, when detecting that supply voltage is greater than image taking standard voltage value and network speed is less than or equal to network speed standard value, miner's equipment stops captured borehole image to be transferred to aboveground, and the borehole image captured by preserving, wherein, described image taking standard voltage value (V2) is less than image transmitting standard voltage value (V3).
Furtherly, be arranged with for the battery recharge room for miner's equipment charge at mine, battery recharge room place arranges recharged card, described miner's equipment detects in real time to described recharged card, when described miner's Equipment Inspection is to described recharged card, and supply voltage is when being greater than image taking standard voltage value, borehole image that is captured and that preserve is transferred to aboveground by described miner's equipment.
Furtherly, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, when detecting that supply voltage is greater than data transmission voltage standard value, miner's equipment by the positioning mark real-time data transmission of locator card that detects to aboveground, otherwise, the positioning mark data timing of the locator card detected is transferred to aboveground by miner's equipment, wherein, described data transmission voltage standard value (V1) is less than image taking standard voltage value (V2).
Furtherly, miner's equipment the positioning mark data of the locator card detected are transferred to aboveground while, the device number of miner's equipment is transferred to aboveground, accurately to locate the concrete miner carrying this miner's equipment.
Step 105, when described miner's Equipment Inspection is to described shutdown card, makes to keep holding state for the parts detecting radio-frequency card in miner's equipment, make its miscellaneous part be in off-mode.
Above-mentioned energy-saving type miner portable devices and structure are simple, form downhole system together with the radio-frequency card that itself and down-hole are arranged.
The type being arranged on the radio-frequency card of down-hole diverse location comprises start card, shutdown card, locator card, recharged card, dissimilar radio-frequency card by different id number sections as differentiation.
After the powering on for the parts detecting radio-frequency card of miner's equipment, the motherboard power supply of miner's equipment is in closed condition, miner's equipment is in low-power consumption standby pattern.
If the signal strength signal intensity that the parts for detecting radio-frequency card read start card is greater than the signal strength signal intensity of shutting down and blocking, then opens the motherboard power supply of miner's equipment, make all parts in miner's equipment be in opening.
If the signal strength signal intensity that the parts for detecting radio-frequency card read shutdown card is greater than the signal strength signal intensity of starting shooting and blocking, then first notify mainboard, and motherboard power supply is closed under the instruction of mainboard, be namely used in the parts detecting radio-frequency card and keep holding state, make miscellaneous part be in off-mode.
If the parts for detecting radio-frequency card read locator card or recharged card (if read multiple simultaneously, then selecting the most powerhouse of signal), by radio-frequency card No. ID, the information such as the electricity of power supply to pass to the mainboard of miner's equipment by UART.Effective reading distance for detecting the parts of radio-frequency card is greater than 25 meters under drive environment, 50 meters are greater than under spacious environment, according to the signal strength signal intensity of read different radio frequency card, the exact position residing for underground work personnel can be extrapolated, positioning precision is less than 5 meters, and position data is passed to mainboard.
After described miner's Equipment Inspection to start card, all parts in miner's equipment are made to be in opening.During in described miner's equipment, all parts are in opening, the underground work mode of miner's equipment adjusts flow chart as shown in Figure 2, and step comprises:
During in step 201, miner's equipment, all parts are in opening, miner's equipment detects radio-frequency card in real time.
Step 202, judge whether described radio-frequency card is shutdown card, if shutdown card, then performs step 212 according to No. ID of detected radio-frequency card, otherwise, perform step 203.
Step 203, miner's equipment detect supply voltage in real time.
Predeterminable multiple low-voltage alarming value, according to each functional module priority of the mainboard of miner's equipment and power consumption condition, when the electricity of power supply reduces, progressively closes non-essential consumption, makes miner's equipment enter different low-power consumption modes.
Step 204, the more described supply voltage of miner's equipment and image transmitting standard voltage value V3, when described supply voltage is greater than image transmitting standard voltage value V3, perform step 205, otherwise, perform step 206.
Step 205, miner's Equipment Inspection network speed, when described network speed is greater than network speed standard value, judges that network speed is normal, perform step 207, otherwise perform step 208.
Step 206, the more described supply voltage of miner's equipment and image taking standard voltage value V2, when described supply voltage is greater than image taking standard voltage value V2 and is less than or equal to image transmitting standard voltage value V3, perform step 208, otherwise, perform step 209.
The borehole image photographed to aboveground, and is real-time transmitted to aboveground by step 207, miner's equipment by the positioning mark real-time data transmission of locator card that detects.
The borehole image photographed to aboveground, and is saved in local storage by step 208, miner's equipment by the positioning mark real-time data transmission of locator card that detects, stops the borehole image taken by transmission.
Step 209, the more described supply voltage of miner's equipment and data transmission voltage standard value V1, when described supply voltage is greater than data transmission voltage standard value V1 and is less than or equal to image taking standard voltage value V2, perform step 210, otherwise, perform step 211.
The positioning mark real-time data transmission of locator card that detects to aboveground, and is stopped shooting borehole image, to reduce energy consumption by step 210, miner's equipment.
The positioning mark data timing of the locator card detected is transferred to aboveground, to reduce energy consumption by step 211, miner's equipment.
That is, when the electricity of power supply is not enough, miner's device shutdown motherboard power supply, subsequently every set time time opening motherboard power supply, and inform that mainboard is in emergency at present, WiFi data-transformation facility can only be opened, identification data to be positioned transfer to aboveground after, again close motherboard power supply, until next wakeup time, or read shutdown card enter normal shutdown state.
Step 212, miner's equipment make it keep holding state for the parts detecting radio-frequency card, make its miscellaneous part be in off-mode.
Further, during in miner's equipment, all parts are in opening, miner's equipment can also detect it in real time for detecting the output current of the parts of radio-frequency card, when output current is greater than default output current standard value, illustrate that load exists multiplexing electric abnormality situation, such as load local line short circuit, power supply can be caused like this cannot to support the normal work of miner's equipment carrier within a working day, and short circuit easily produces spark, there is potential safety hazard, now, miner's equipment directly turns off its motherboard power supply.
Further, during in miner's equipment, all parts are in opening, miner's equipment can also detect recharged card in real time, and described recharged card is arranged on the entrance of battery recharge room.When miner's Equipment Inspection is to recharged card, open the motherboard power supply of miner's equipment, make miner's equipment enter charged state.In the charge state, whether miner's equipment automatic inspection can have the local borehole image stored, if having, then when supply voltage is greater than image taking standard voltage value V2, by wifi, stored borehole image is uploaded to aboveground server and files.
In the process that supply voltage constantly reduces, the present embodiment is transmitted as example with the transmission of the locator data of miner's equipment, borehole image shooting, borehole image, the underground work mode of adjustment miner equipment.In actual applications, miner's equipment also can possess delivery value, broadcast-capable etc., now, can according to the dump energy of the priority of each function and power supply, closed portion unnecessary functions, to reduce power consumption.
Fig. 3 is the structured flowchart of the energy-saving type miner equipment that the embodiment of the present invention provides, and as shown in Figure 3, comprising: be arranged on the mine lamp on miners' cap, the supply unit be connected with described mine lamp, the radio frequency card reading device be connected with described supply unit.Wherein, described radio frequency card reading device comprises: for reading the tag reading circuit of radio-frequency card under mine, the wireless transceiver be connected with described tag reading circuit.Described wireless transceiver carries out signal transmitting and receiving by WiFi, realizes the communication of underground.
Fig. 4 is the concrete structure block diagram of the shown energy-saving type miner equipment of Fig. 3, as shown in Figure 4, comprising: be arranged on the mine lamp on miners' cap, supply unit, radio frequency card reading device.
Described radio frequency card reading device comprises mainboard, the first subplate, the second subplate, and wherein, two subplates are plugged on mainboard.
Described mainboard comprises: central processor CPU, the memory be connected with described CPU, and various interface, and wherein said various interface comprises usb interface, voltage input interface, LCDs interface, UART, keystroke interface, COBBAIF.
Described first subplate comprises: the microprocessor be connected with described supply unit, the input voltage detection circuit be connected respectively with described microprocessor and described supply unit, the input voltage detection circuit be connected respectively with described microprocessor and arbitrate executive circuit, and the output current detection circuit be connected with described arbitration executive circuit.
Described second subplate comprises: the wireless transceiver be connected with described CPU, and described wireless transceiver carries out signal transmitting and receiving by WiFi, realizes the communication of underground.
The radio-frequency card that described tag reading circuit is placed for reading in down-hole can be radio-frequency card reader.Described radio-frequency card comprises the start card with start identification data, multiple locator cards with different positioning mark data, has the shutdown card of shutdown identification data, has the recharged card of charging identification data.After described tag reading circuit reads described start card, described radio frequency card reading device makes all parts in miner's equipment be in opening, and transfers to aboveground by its device identification number with the start identification data read by wireless transceiver; After described tag reading circuit reads described locator card, its device identification number transfers to aboveground with the positioning mark data read by wireless transceiver by described radio frequency card reading device, determines the exact position of underground work personnel for aboveground staff; After described tag reading circuit reads described shutdown card, its device identification number transfers to aboveground with the shutdown identification data read by wireless transceiver by described radio frequency card reading device, and make except the parts for reading radio-frequency card are in except holding state in radio frequency card reading device, other parts are in off-mode; After described tag reading circuit reads described recharged card, its device identification number transfers to aboveground with the charging identification data read by wireless transceiver by described radio frequency card reading device.If described tag reading circuit reads multiple radio-frequency card simultaneously, then choose the strongest radio-frequency card of signal, the information about power of the identification data in radio-frequency card, supply unit, device identification number etc. are passed to mainboard by UART, under drive environment, effective reading distance is greater than 25 meters, under spacious environment, effective reading distance is greater than 50 meters, simultaneously, described radio frequency card reading device is according to the signal strength signal intensity of read different radio frequency card, can extrapolate the exact position residing for underground work personnel, positioning precision is less than 5 meters, and locator data is passed to its mainboard.Mainboard by described wireless transceiver by the related data transmission that gets to aboveground.
Described input voltage detection circuit is used for during in miner's equipment, all parts are in opening, the supply voltage of described miner's equipment is detected, when detecting that supply voltage is greater than data transmission voltage standard value, its device identification number is real-time transmitted to aboveground with the location identifier of the radio frequency locator card detected by its wireless transceiver by described radio frequency card reading device, otherwise, by described wireless transceiver by its device identification number and the location identifier timing transmission of radio frequency locator card that detects to aboveground, to reduce power consumption when supply unit electricity is not enough, specifically, when supply unit electricity is not enough, described radio frequency card reading device notifies its mainboard immediately, and motherboard power supply is closed under the instruction of its mainboard, subsequently every Preset Time, described radio frequency card reading device time opening motherboard power supply, and inform that its mainboard is in emergency at present, WiFi data-transformation facility can only be opened, until wireless transceiver by related data transmission such as device identification number and position identifiers to after aboveground, again motherboard power supply is closed according to the instruction of its mainboard, until next wakeup time or read shutdown card enter normal shutdown state.
Described output current detection circuit exports the output current of mainboard to for detecting the first subplate, when output current is greater than default output current standard value, there is multiplexing electric abnormality situation in illustrative system load, described radio frequency card reading device directly turns off the power supply exporting its mainboard to, avoids the excessive potential safety hazard caused of output current.
Described arbitration executive circuit is used for carrying out arbitrating according to each standard voltage value preset and current standard value and judging, to determine the function of On/Off.
Above-mentioned energy-saving type down-hole miner portable devices and structure are simple, form downhole system together with the radio-frequency card that itself and down-hole are arranged.
The type being arranged on the radio-frequency card of down-hole diverse location comprises start card, shutdown card, locator card, recharged card, dissimilar radio-frequency card by different id number sections as differentiation.
After the radio frequency card reading device of miner's equipment powers on, the motherboard power supply of miner's equipment is in closed condition, miner's equipment is in low-power consumption standby pattern.
If the signal strength signal intensity that described radio frequency card reading device reads start card is greater than the signal strength signal intensity of shutting down and blocking, then opens the motherboard power supply of miner's equipment, make all parts in miner's equipment be in opening.
If the signal strength signal intensity that described radio frequency card reading device reads shutdown card is greater than the signal strength signal intensity of starting shooting and blocking, then first notify its mainboard, and motherboard power supply is closed under the instruction of its mainboard, even if the parts for reading radio-frequency card in described radio frequency card reading device are in holding state, miscellaneous part is in off-mode.
If described radio frequency card reading device reads locator card or recharged card (if read multiple simultaneously, then selecting the most powerhouse of signal), then the information such as the electricity of the identifier in radio-frequency card, supply unit are passed to its mainboard by UART.
Fig. 5 is the underground work mode method of adjustment application scenarios figure of the energy-saving type miner equipment that the embodiment of the present invention provides, as shown in Figure 5.
The inlay of the built-in 13.56MHz frequency range of miner's equipment, for storing in each miner's equipment for detecting the specific device number (0x0000 ~ 0xFFFF) of the parts of radio-frequency card.When receiving miner's equipment at every turn, described device number reads by available double-frequency reader-writer (13.56MHz/2.45GHz), write in the flash of the parts detecting radio-frequency card by 2.45GHz together with No. ID (0x0000 ~ 0xEFFF) of miner again, this information will together be transferred to the mainboard of miner's equipment together with positioning mark data.
After miner A gets miner's equipment and correctly wears, walk to the start Ka Chu in Fig. 5, whole miner's equipment is just in open state, and monitors in real time the supply voltage of miner's equipment.
If miner's equipment that miner A is worn at work reads locator card (if read multiple simultaneously, then selecting the most powerhouse of signal), then miner's equipment by locator card No. ID, the information such as battery electric quantity transfers to aboveground Surveillance center by WiFi router.Such as, miner A when region A, by the locator card of reading No. ID, the information such as battery electric quantity transfers to aboveground Surveillance center by WiFi router-A.
During miner A is in underground work pattern, miner's equipment detects supply voltage in real time, if described supply voltage is lower than the standard value preset, then initiatively enters different low-power consumption modes.
Further, during miner A is in underground work pattern, miner's equipment detects it in real time for detecting the output current of the parts of radio-frequency card, namely exports the electric current of mainboard to, when described output current is greater than default output current standard value, directly turn off the motherboard power supply in miner's equipment.
When battery electric quantity is not enough, under the instruction of the mainboard of miner's equipment, close motherboard power supply immediately.Subsequently every set time time opening motherboard power supply, and inform that mainboard is in emergency at present, but WiFi data-transformation facility must be opened, after identification data to be positioned sends, again motherboard power supply is closed according to the instruction of mainboard, until next wakeup time arrives, or read shutdown card and enter normal shutdown state.
Walk to the shutdown Ka Chu in Fig. 5 as miner A, the parts for detecting radio-frequency card in whole miner's equipment keep holding state, make its miscellaneous part be in off-mode.
Walk to the recharged card place in Fig. 5 as miner A, system is in battery recharge room pattern, and miner's equipment is opened its motherboard power supply and informed that it is in charged state.
In sum, the present invention has following technique effect:
1, the present invention is by start card and shutdown card, automatically can control unlatching or the shutdown of miner's equipment in time, for the underground work personnel carrying miner's equipment offer convenience;
2, the present invention is by working method under real-time detection supply voltage adjust well, in the process that supply voltage constantly reduces, non-essential power consumption can be closed in time, extend the working time of miner's equipment, thus ensure the safety of carrying the underground work personnel of miner's equipment further;
3, the present invention arranges radio frequency card reading device in miner's equipment, realizes locating in real time, accurately personnel in the pit, ensures the Efficient Operation of rescue and relief work, safety first-aid, realizes the modernization of management, informationization;
4, the present invention arranges tag reading circuit in miner's equipment, decrease the quantity required of tag reading circuit, not only greatly reduce location cost, and realize locating in real time, accurately personnel in the pit, ensure the Efficient Operation of rescue and relief work, safety first-aid, realize the modernization of management, informationization.
Although above to invention has been detailed description, the present invention is not limited thereto, those skilled in the art of the present technique can carry out various amendment according to principle of the present invention.Therefore, all amendments done according to the principle of the invention, all should be understood to fall into protection scope of the present invention.

Claims (10)

1. a underground work mode method of adjustment for energy-saving type miner equipment, is characterized in that, comprising:
Diverse location under mine arranges the some radio-frequency cards comprising start card, locator card and shutdown card respectively;
Described miner's equipment detects in real time to described radio-frequency card;
When described miner's Equipment Inspection is to described start card, all parts in miner's equipment are made to be in opening;
During in described miner's equipment, all parts are in opening, the positioning mark data of the locator card detected are transferred to aboveground by miner's equipment; And
When described miner's Equipment Inspection is to described shutdown card, makes to keep holding state for the parts detecting radio-frequency card in miner's equipment, make its miscellaneous part be in off-mode.
2. method according to claim 1, is characterized in that, also comprises:
During in described miner's equipment, all parts are in opening, the step that miner's equipment is taken borehole image.
3. method according to claim 2, it is characterized in that, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, when detecting that supply voltage is greater than image taking standard voltage value, miner's equipment is taken borehole image.
4. method according to claim 3, is characterized in that, also comprises:
During described miner's equipment is taken borehole image, captured borehole image is transferred to aboveground by miner's equipment.
5. method according to claim 4, it is characterized in that, during miner's equipment is taken borehole image, miner's equipment detects its supply voltage and network speed, when detecting that supply voltage is greater than image transmitting standard voltage value and network speed is greater than network speed standard value, captured borehole image is transferred to aboveground by miner's equipment, and wherein, described image taking standard voltage value is less than image transmitting standard voltage value.
6. method according to claim 5, it is characterized in that, during miner's equipment is taken borehole image, miner's equipment detects its supply voltage and network speed, when detecting that supply voltage is greater than image taking standard voltage value and network speed is less than or equal to network speed standard value, miner's equipment stops captured borehole image to be transferred to aboveground, and the borehole image captured by preserving.
7. method according to claim 6, is characterized in that, also comprises:
Under mine, recharged card is set for the battery recharge room place for miner's equipment charge;
Described miner's equipment detects in real time to described recharged card;
When described miner's Equipment Inspection is to described recharged card, and when supply voltage is greater than image taking standard voltage value, borehole image that is captured and that preserve is transferred to aboveground by described miner's equipment.
8. method according to claim 3, it is characterized in that, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, when detecting that supply voltage is less than or equal to image taking standard voltage value, miner's equipment stops taking borehole image.
9. method according to claim 1, it is characterized in that, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, when detecting that supply voltage is greater than data transmission voltage standard value, miner's equipment by the positioning mark real-time data transmission of locator card that detects to aboveground.
10. method according to claim 9, it is characterized in that, during in described miner's equipment, all parts are in opening, miner's equipment detects its supply voltage, when detecting that supply voltage is less than or equal to data transmission voltage standard value, the positioning mark data timing of the locator card detected is transferred to aboveground by miner's equipment.
CN201310294642.2A 2013-07-12 2013-07-12 A kind of underground work mode method of adjustment of energy-saving type miner equipment Expired - Fee Related CN104131839B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201310294642.2A CN104131839B (en) 2013-07-12 2013-07-12 A kind of underground work mode method of adjustment of energy-saving type miner equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201310294642.2A CN104131839B (en) 2013-07-12 2013-07-12 A kind of underground work mode method of adjustment of energy-saving type miner equipment

Publications (2)

Publication Number Publication Date
CN104131839A CN104131839A (en) 2014-11-05
CN104131839B true CN104131839B (en) 2016-04-20

Family

ID=51804674

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201310294642.2A Expired - Fee Related CN104131839B (en) 2013-07-12 2013-07-12 A kind of underground work mode method of adjustment of energy-saving type miner equipment

Country Status (1)

Country Link
CN (1) CN104131839B (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111556435A (en) * 2020-05-08 2020-08-18 辽宁瑞华实业集团高新科技有限公司 Low-power-consumption positioning device

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU2180941C2 (en) * 2000-02-25 2002-03-27 Баранов Андрей Михайлович Automated system to test and control production process, environment and positions of miners in underground workings
CN101873240A (en) * 2010-05-10 2010-10-27 煤炭科学研究总院重庆研究院 Multifunctional wireless Mesh gateway device for multi-RF (Radio Frequency) mine and control system thereof
CN102477869A (en) * 2010-11-24 2012-05-30 上海复莱信息技术有限公司 Wireless personnel positioning and mobile monitoring terminal
CN102748067A (en) * 2012-07-31 2012-10-24 北京圣博亚科技有限公司 Mining underground vital sign detecting system and vital sign positioning and identifying device
CN202524561U (en) * 2011-12-31 2012-11-07 丹东东方测控技术有限公司 Device for realizing underground mine positioning and navigation
CN202578792U (en) * 2012-05-07 2012-12-05 天地(常州)自动化股份有限公司 Portable information device for miner
CN202690134U (en) * 2012-07-27 2013-01-23 泰州市众泰自动化设备有限公司 Mine equipment management system
CN102890767A (en) * 2012-08-27 2013-01-23 中国矿业大学(北京) Underground personnel positioning system and method based on radio frequency identification technology
CN203022822U (en) * 2013-01-09 2013-06-26 上海师范大学 Miner locating device of underground coal mine

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU2180941C2 (en) * 2000-02-25 2002-03-27 Баранов Андрей Михайлович Automated system to test and control production process, environment and positions of miners in underground workings
CN101873240A (en) * 2010-05-10 2010-10-27 煤炭科学研究总院重庆研究院 Multifunctional wireless Mesh gateway device for multi-RF (Radio Frequency) mine and control system thereof
CN102477869A (en) * 2010-11-24 2012-05-30 上海复莱信息技术有限公司 Wireless personnel positioning and mobile monitoring terminal
CN202524561U (en) * 2011-12-31 2012-11-07 丹东东方测控技术有限公司 Device for realizing underground mine positioning and navigation
CN202578792U (en) * 2012-05-07 2012-12-05 天地(常州)自动化股份有限公司 Portable information device for miner
CN202690134U (en) * 2012-07-27 2013-01-23 泰州市众泰自动化设备有限公司 Mine equipment management system
CN102748067A (en) * 2012-07-31 2012-10-24 北京圣博亚科技有限公司 Mining underground vital sign detecting system and vital sign positioning and identifying device
CN102890767A (en) * 2012-08-27 2013-01-23 中国矿业大学(北京) Underground personnel positioning system and method based on radio frequency identification technology
CN203022822U (en) * 2013-01-09 2013-06-26 上海师范大学 Miner locating device of underground coal mine

Also Published As

Publication number Publication date
CN104131839A (en) 2014-11-05

Similar Documents

Publication Publication Date Title
US9826714B2 (en) Tracking sensor
CN104205788B (en) For the battery management method of near-field communication
CN102739293B (en) Management of secure element deadlock
CN102880847B (en) Novel coal mine downhole positioning system based on leaky cable
CN206369579U (en) Goods and materials weigh monitoring system and automatic weighing system
CN103840525A (en) Mobile storage power source
CN106558812A (en) A kind of Metering socket based on NFC
CN204203993U (en) There is the double-frequency card of wireless charging function
CN104131839B (en) A kind of underground work mode method of adjustment of energy-saving type miner equipment
CN103294889B (en) Cohesion monitoring method and cohesion monitor controller
CN103486446B (en) A kind of digital miner light system
CN203607905U (en) Electric vehicle charging station operation and maintenance terminal
CN102663487B (en) There is identifing source card, have the control method of identifing source card and work attendance station-keeping system
CN102881084B (en) Smart card reader of wireless integrated circuit (IC) card
CN205354214U (en) Support payment terminal of mobile network access
CN105989379A (en) Wireless radio frequency identification reader-writer of campus verification system
CN104134082A (en) Realization method of energy-saving underground miner safety facility
CN106127281B (en) A kind of Bluetooth intelligent card and its charging method
CN203082553U (en) LED miner lamp with positioning lifesaving module
CN203216392U (en) Personnel locating detonator detonating system in pit
CN203321595U (en) Underground portable positioning device
CN204576178U (en) A kind of combustion gas pre-payment remote detection and control terminal
CN204423400U (en) A kind of RFID technique read write line for campus verification system
CN106392973A (en) Intelligent RFID induction screwdriver
CN202957851U (en) Docking station provided with UHF RFID read-write module and matched with mobile communication terminal

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160420

Termination date: 20180712

CF01 Termination of patent right due to non-payment of annual fee