RU2014140322A - GAS SIGNALER, SYSTEM AND METHOD - Google Patents

Abstract

1. A gas network communications detector in a mine, comprising: a housing; a battery located in the housing; a gas sensor unit, powered by a battery and in electrical communication with the battery, which detects a first gas and at least a second gas different from the first gas , in the mine; an alarm unit located in the housing, powered by a battery and in electrical communication with the battery, which emits a visual alarm and an audible alarm when the gas sensor unit recognizes that either the first or the second gas exceeds a predetermined threshold, the wireless communication unit disposed in the housing, powered by battery and is in electrical communication with the battery and a sensor unit, which sends a wireless signal to the network from the housing in the shaft that the gas sensor unit to recognize either the first or the second gas; a processor located in the housing, powered by a battery and in electrical communication with the wireless unit, alarm unit, sensor unit and battery. 2. The detector according to claim 1, wherein the gas sensor unit includes a full range methane sensor in volume between zero and 100%, and the wireless unit transmits wirelessly from the housing the methane value for methane in the mine recognized by the sensor unit. 3. The detector according to claim 1, wherein the gas sensor unit includes a carbon monoxide sensor and an H2S sensor, and the wireless communication unit wirelessly transmits from the housing the carbon monoxide value for the carbon in the mine recognized by the sensor unit and the H2S value for H2S in the mine, detected by the sensor unit. 4. The detector according to claim 1, wherein the processor receives a gas value signal from b

Claims (45)

1. The signaling device of the communication network for gases in the mine, containing: housing; a battery located in the housing; a gas sensor unit, powered by a battery and in electrical communication with the battery, which detects a first gas and at least a second gas different from the first gas in the mine; an alarm unit located in the housing, powered by a battery and in electrical communication with the battery, which emits a visual alarm and an audible alarm when the gas sensor unit recognizes that either the first or second gas exceeds a predetermined threshold; a wireless communication unit located in the housing, powered by a battery and in electrical communication with the battery and the sensor unit, which sends a wireless signal from the housing to the network in the mine that the gas sensor unit has recognized either the first or second gas; and a processor located in the housing, powered by a battery and in electrical communication with the wireless unit, the alarm unit, the sensor unit and the battery. 2. The detector according to claim 1, wherein the gas sensor unit includes a full range methane sensor in volume between zero and 100%, and the wireless unit transmits wirelessly from the housing the methane value for methane in the mine recognized by the sensor unit. 3. The detector according to claim 1, wherein the gas sensor unit includes a carbon monoxide sensor and an H2S sensor, and the wireless communication unit wirelessly transmits from the housing the carbon monoxide value for carbon in the mine recognized by the sensor unit and the H2S value for H2S in the mine recognized by the sensor unit. 4. The detector according to claim 1, wherein the processor receives the gas value signal from the gas sensor unit and converts the gas value signal into a converted form of the gas value signal, which can be sent wirelessly by the communication unit from the housing. 5. The detector according to claim 1, in which the communication unit includes a transceiver in communication with the processor. 6. The detector according to claim 5, in which the communication unit includes an amplifier with an internal antenna in communication with the transceiver. 7. The detector of claim 6, wherein the processor provides the converted form of the gas value signal to the transceiver, which then transmits the converted form of the gas value signal wirelessly through an amplifier and an internal antenna from the housing. 8. The detector of claim 1, wherein the alarm unit includes a visual alarm and an audible alarm, and the processor receives an alarm from the gas sensor unit and includes a visual alarm and an audible alarm based on the alarm. 9. The signaling network communication for gases in the mine, containing: housing; a battery located in the housing; a gas sensor unit, powered by a battery and in electrical communication with the battery, which detects a first gas and at least a second gas different from the first gas in the mine; a wireless communication unit located in the housing, powered by a battery and in electrical communication with the battery and the sensor unit, which sends a wireless signal from the housing to the network in the mine that the gas sensor unit has recognized either the first or second gas; at least one input for connecting to a remote device that provides a status signal regarding the remote device, which is transmitted by the wireless unit from the detector; and a processor located in the housing, powered by a battery and in electrical communication with the wireless unit, input, sensor unit and battery. 10. A method for monitoring gas in a mine, comprising the steps of: detecting by the gas sensor unit of the first gas and at least a second gas different from the first gas in the mine, the gas sensor unit being powered by a battery and in electrical communication with the battery, the gas sensor unit and the battery being located in the housing; radiation from the battery powered alarm unit located in the housing and in electrical communication with the battery, a visual alarm and an audible alarm when the gas sensor unit recognizes that either the first or second gas exceeds a predetermined threshold; and sending by the wireless communication unit located in the housing powered by the battery and in electrical communication with the battery and the sensor unit, a wireless signal from the housing that the gas sensor unit has recognized either the first or second gas. 11. The signaling device of the communication network for gases in the mine, containing: housing; a battery located in the housing; a gas sensor unit, powered by a battery and in electrical communication with the battery, which detects a first gas and at least a second gas different from the first gas in the mine; a terminal block that has two states, an output configuration state in which an output signal is sent from the processor to the first device, and an input configuration state in which an input signal is received from the second device; a wireless communication unit located in the housing, powered by a battery and in electrical communication with the battery and the sensor unit, which sends a wireless signal from the housing to the network in the mine that the gas sensor unit has recognized either the first or second gas; and a processor located in the housing, powered by a battery and in electrical communication with the wireless unit, the alarm unit, the sensor unit and the battery. 12. An underground gas monitoring system, comprising: an detector that detects gas located in the underground mine and detects a gas value for the gas, the detector having an audible alarm and a visual alarm that activates when the detected gas exceeds a predetermined value, and a transceiver that transmits a gas value; a wireless communication network in production through which the gas value is transmitted from the detector; and a remote station that receives the value of gas from the network. 13. The system according to p. 12, in which the transceiver receives a signal from the network to change the set value for the alarm condition for gas detected by the detector. 14. The communication system in the mine, containing: a data network through which data is sent exclusively; a wireless network in the mine through which bidirectional speech and data are sent; and a plurality of nodes distributed and located separately from each other that form a data network and a wireless network, each node having a data unit that receives and sends data over a data network, a wireless unit that receives and sends voice signals over a wireless network, and a power supply unit in electrical communication with a data unit and a wireless unit that supplies power to the data unit and the wireless unit. 15. The system of claim 14, wherein the data in the data network includes tracking information of an individual. 16. The system of claim 15, wherein data over the data network is sent and received at at least one node from the plurality of nodes, and the data network is bi-directional. 17. The system of claim 16, wherein data from the data network is sent over the data network and the wireless network. 18. The system of claim 17, wherein each node includes a data converter in communication with a data unit and a wireless unit that converts data from a data network to a transmission signal that is transmitted over a wireless network. 19. A communication node of a data network and a wireless network in a mine, comprising: housing; a data unit located in a housing that receives data over a data network in a mine; a wireless unit located in a housing that receives and sends voice signals over a wireless network in a mine; a power supply unit located in the housing in electrical communication with the data unit and the wireless unit that supplies power to the data unit and the wireless unit; and a data converter located in the housing in communication with a data unit and a wireless unit that converts data from a data network into a transmission signal that is transmitted wirelessly. 20. The node according to claim 19, in which the wireless unit includes a first radio station located in the housing for transmitting a transmission signal. 21. The node according to p. 20, in which the wireless unit includes a switch located in the housing, in communication with the first radio station and data converter. 22. The assembly of claim 21, wherein the wireless unit includes an external fiber optic connector in communication with a switch for connecting to an external optical fiber for transmitting a transmission signal. 23. A communication method in a mine, comprising the steps of: receiving data wirelessly in a data block of a first node from a plurality of nodes in a mine from a data network through which only data is sent, the many nodes being distributed and located separately from each other and forming a data network and a wireless network; converting, by a data converter, in communication with a data unit, data from a data network to a transmission signal that is transmitted over a wireless network, the wireless network transmitting and receiving voice and data bidirectionally; transmitting a transmission signal from the first node over the wireless network via the wireless unit of the first node; and supplying power to the data unit and the data unit by means of the power supply unit in electrical communication with the data unit and the wireless unit. 24. A miner communicator in a mine communication network, comprising: housing; a processor located in the housing; a transceiver located in the housing and in communication with the processor and the network for sending and receiving from the network in the mine only data, but not including text; an input located on the housing and in communication with the processor, which provides a trigger signal for the processor; alarms in contact with the chassis and in communication with the processor, which is activated by the processor when the alarm signal is received by the transceiver; and a tracking unit located in the housing that provides the tracking signal, which is transmitted by the transceiver to the network, from which the location of the housing in the mine is determined. 25. The communicator according to claim 24, wherein the input is only a single button. 26. The communicator according to claim 25, wherein the alarm is a first LED that is lit when an alarm is received by the transceiver. 27. The communicator according to claim 26, when the alarm is a plurality of LEDs that are lit when an alarm is received by the transceiver. 28. The communicator according to claim 27, in which there is no display. 29. The communicator according to claim 28, wherein the trigger signal is a fixed waveform whose duration corresponds to how long the button has been activated. 30. The communicator according to claim 29, wherein the alarm is activated only when the alarm is received by the transceiver during two listening intervals in the listening period. 31. The communicator according to claim 30, wherein activating the button causes the processor to create an indicator signal for the network by means of a transceiver corresponding to the activation time and activation frequency of the button. 32. The communicator according to claim 31, wherein the transceiver has its own settings that can be changed by the processor when the communicator is within a predetermined distance from the communication node, so that the transceiver does not enter the saturation mode of the communication node. 33. The communicator according to claim 32, wherein, when the communicator moves from the zone of surface communication nodes to only underground communication nodes, the processor transmits to the network via a transceiver a message about the entry to work that the communicator is present in the mine. 34. The communicator according to claim 33, wherein the tracking unit is part of the transceiver. 35. The communicator according to claim 34, in which the housing has dimensions l × w × h less than 110 × 210 × 50 mm and weight less than 150 g. 36. A method of communication with a miner in a mine, comprising the steps of: sending the alarm signal wirelessly over the wireless network to the miner’s communicator, carried by the miner in the mine, the communicator being able to receive only data, but not speech; receiving alarm signal communicator; activation of the communicator alarm by the communicator processor in response to the communicator receiving the alarm signal; and the activation of the communicator button, which causes the transmitter to transmit from the communicator to the network an indicator signal regarding the miner's state, and with the indicator signal the communicator id and information associated with the position of the communicator in the mine are provided, and the communicator has no display or keyboard 37. A gas monitoring system in an apparatus for drilling oil or gas wells, comprising: an indicator that detects gas at the drilling rig and determines a gas value for gas, the indicator having an audible alarm and a visual alarm that activates when the detected gas exceeds a predetermined value, and a transceiver that transmits a gas value; a wireless communication network through which the gas value is transmitted from the detector; and a remote station that receives the value of gas from the network. 38. The system of claim 37, wherein the remote station includes a receiver that receives a gas value from the network, a processor in communication with a receiver that receives a gas value from the receiver, and a display in communication with a processor on which the processor displays an alarm indication alarm when the gas value exceeds the set level. 39. A remote station that receives gas values of gas detectors from a wireless network, comprising: a receiver that receives gas values wirelessly from the network; a processor in communication with a receiver that receives gas values from the receiver; and a display in communication with the processor on which the processor displays an alarm indication when the gas value exceeds a predetermined level. 40. The station of claim 39, including the housing, and the processor and receiver are located in the housing, and the display is located on the front surface of the housing. 41. A miner device for a wireless network, comprising: case, which is carried by a miner; a tracking unit located in a housing that transmits information associated with the location of the miner wirelessly to the network; a battery located in the housing and connected to the tracking unit, which supplies power to the tracking unit; and a head lamp electrically connected to the battery, which is powered by a battery to provide light, the head lamp being carried by a miner. 42. A miner device for a wireless network, comprising: case, which is carried by a miner; a tracking unit located in a housing that transmits information associated with the location of the miner wirelessly to the network; a battery located in the housing and connected to the tracking unit, which supplies power to the tracking unit; and a proximity detector electrically connected to the battery and located in the housing, which is powered by a battery to provide a detectable presence near the proximity detector when the miner is too close to the proximity detector, and the proximity detector is carried by the miner. 43. A miner device for a wireless network, comprising: case, which is carried by a miner; a tracking unit located in a housing that transmits information associated with the location of the miner wirelessly to the network; a battery located in the housing and connected to the tracking unit, which supplies power to the tracking unit; a proximity detector electrically connected to the battery and located in the housing, which is powered by a battery to provide a detectable presence near the proximity detector when the miner is too close to the proximity detector, and the proximity detector is carried by the miner; and a head lamp electrically connected to the battery, which is powered by a battery to provide light, the head lamp being carried by a miner. 44. A method of moving a miner in a mine, comprising the steps of: supplying power to the lamp of the head lamp on the head of the miner by means of a battery in the housing carried by the miner; sending location-related information from the hull so that the miner can be tracked as the miner moves through the mine; and stopping the mechanism by means of an proximity sensor connected to the mechanism, since the proximity sensor has recognized that the proximity detection device in the housing has approached a predetermined distance for the proximity detection device. 45. A proximity detector attached to the mechanism, the detector for detecting the presence of a miner contains: a generator that creates a magnetic field; CPU; and a transceiver for sending a message created by a processor having information about the generator’s operability and the PAD ID of a miner who triggered a warning or danger signal that actually stopped the mechanism.