TWM537637U - Lamp with gas and earthquake detection - Google Patents

Description

Gas and seismic detection lamps

The present invention discloses a luminaire with gas and seismic detection, and more particularly to a luminaire having a predicted magnitude of magnitude after seismic detection and issuing a corresponding number of audible alarms.

The existing gas or seismic detection device only functions as a general gas or seismic detection device; and the design of the existing lamps is mostly only a lighting structure of a lamp, and does not have the function of gas and seismic detection at the same time. The role of the luminaire. On the other hand, existing luminaire products also lack luminaires that have both gas detection, seismic detection, illumination, and the ability to predict the magnitude of the earthquake after the earthquake is detected and to respond to the number of alarms. Therefore, further research and development is needed.

The present invention discloses a luminaire with gas and seismic detection, which combines the functions of luminaires and gases and seismic detection, and, when an earthquake is detected, has a luminaire that predicts the magnitude of the earthquake and issues a corresponding number of audible alarms. For example, when predicting a magnitude 4 earthquake, a continuous four-tone alarm sound is emitted, a 5-level earthquake is predicted, and five consecutive alarm sounds are emitted, and so on. This allows people to get to know the situation and make appropriate contingency measures.

The luminaire for gas and seismic detection of the present invention comprises: a casing, the casing is internally provided with a plurality of lamp groups, and the light of the plurality of lamp groups is emitted outside the casing; a base Receiving at the bottom of the casing; a gas detector disposed at the bottom of the base for detecting gas; and a gyroscope accelerator disposed in the casing a control unit coupled to the gas detector and the gyro accelerator to generate an RF signal, an illumination signal or an acoustic signal; and a plurality of feet disposed on the base At the bottom of the plurality of feet, the height of the plurality of feet is higher than the height of the gas detector.

Wherein, when the gas detector detects carbon monoxide, gas or smoke or the gyro accelerator detects an earthquake, the control unit uses the generated radio frequency signal, illuminating signal or sound signal, especially when detecting After the earthquake is detected, it has a predicted magnitude and a corresponding number of alarms.

The control unit includes: a digital/analog converter coupled to the gas detector to convert a type of signal detected by the gas detector into a digital signal; a central computing unit And the digital/analog converter and the gyro accelerator are configured to perform operation and control on the digital signal; a radio frequency signal module is coupled to the central operation unit, and is controlled by the central operation unit Generating the radio frequency signal; an illumination driving module coupled to the central computing unit, the central computing unit controls and generates the illumination signal; and a sound driving module coupled to the central computing unit The sound signal is controlled and generated by the central computing unit.

The present invention further discloses a lamp with gas and seismic detection, comprising: a casing, the casing is internally provided with a plurality of lamp groups, and the light of the plurality of lamp groups is emitted outside the casing; a base is received at the bottom of the casing; a gas detector is disposed at the bottom of the base for detecting gas; and a gyroscope accelerator is disposed inside the casing for detecting an earthquake; The control module is coupled to the gas and the seismic detector to generate a radio frequency signal, an illumination signal or an audio signal. The control module includes: a digital/analog converter coupled to the a gas detector that converts a type of signal detected by the gas detector into a digital signal; a central operation unit coupled to the digital/analog converter and a gyro accelerator, the digital digit The signal performs calculation and control; a wireless transmission receiving module is coupled to the central computing unit for wirelessly connecting to receive signals; The transmitting and transmitting module is coupled to the central computing unit for wirelessly transmitting a wireless signal; and the luminaire with gas and seismic detection includes a plurality of feet disposed at the bottom of the base. The height of the plurality of feet is higher than the height of the gas detector; wherein the gas and seismic detecting lamps are connected to a handheld device by wireless connection; the gas and seismic detection The radio frequency signal, the illuminating signal, the sound signal or the wireless signal generated by the luminaire is used for communicating with a terminal device; the handheld device is wirelessly connected to control the radio frequency signal, the illuminating signal generated by the control module or The sound signal is in turn communicated with the terminal device to perform activation or deactivation.

The gas and seismic detection lamps are connected to a cloud server by wireless connection; the cloud server is wirelessly connected to control the RF signal and the illumination signal generated by the control module. The sound signal or wireless signal, in turn, communicates with the terminal device to perform activation or deactivation.

The control module includes: a radio frequency signal module coupled to the central computing unit, the central computing unit controls and generates the radio frequency signal; and an illumination driving module coupled to the a central computing unit, wherein the central computing unit controls and generates the illumination signal; and a sound driving module coupled to the central computing unit, and the central computing unit controls and generates the sound signal, in particular When an earthquake is detected, it has a predicted magnitude and a corresponding number of alarms. .

The radio frequency signal, the illuminating signal, the sound signal or the wireless signal is used to control the terminal device, and the radio frequency signal receiving module, a LiFi receiving module and a wireless receiving module are connected to the terminal device for receiving the The radio frequency signal generated by the control module, the illuminating signal or the wireless signal; the terminal device is a computer device and/or an exhaust device or a device for controlling gas/water power on/off.

The cloud server includes a wireless connection with a remote mobile phone, a tablet computer or a computer, and accepts the remote mobile phone, tablet computer or electric The remote control of the brain controls the radio frequency signal, the illuminating signal, the audible signal or the wireless signal generated by the control module, and further performs communication to start or close with the terminal device.

10‧‧‧shell

12‧‧‧Transmission Department

14‧‧‧Transparent parts

16‧‧‧Lights

20‧‧‧Base

22‧‧‧ feet

24‧‧‧ gas sensor

25‧‧‧Gyro Accelerator

30‧‧‧Control unit

31, 41‧‧‧Digital/Analog Converter

32, 42‧‧‧Central Computing Unit

33, 43‧‧‧RF signal module

34, 44‧‧‧Lighting drive module

35, 45‧‧‧Sound driver module

40‧‧‧Control Module

46‧‧‧Wireless Transmission Receiver Module

47‧‧‧Wireless transmission module

50‧‧‧ Terminal equipment

51‧‧‧Computer equipment

52‧‧‧RF signal receiving module

53‧‧‧Exhaust equipment

54‧‧‧LiFi Receiver Module

56‧‧‧Wireless receiving module

60‧‧‧Cloud Server

61, 65‧‧‧ mobile phones

62, 64‧‧‧ Tablet PC

63‧‧‧Infrared (IR) control module

66‧‧‧ computer

1 is a schematic perspective view of a second embodiment of the present invention; FIG. 3 is a schematic block diagram of a second embodiment of the present invention; FIG.

This creation involves a gas and seismic detection luminaire that, in addition to gas detection, seismic detection and luminaire illumination, can predict the magnitude of the earthquake and detect the corresponding alarm sound after the earthquake is detected. The number of lamps. Referring to FIG. 1 and FIG. 2, the lamp with gas and seismic detection includes a casing 10 and a base 20. The casing 10 is provided with a plurality of lamp groups 16 and a light transmission on the casing 10. The light transmitting portion 12 of the portion 12 may be a circular hole-shaped structure, and the light emitted by the plurality of light groups 16 may be emitted outside the casing 10 via the light transmitting portion 12. In order to make the emitted light effect better, a light transmissive member 14 may be disposed on the light transmitting portion 12, for example, a glass or an acrylic plastic material component, and the light transmissive member 14 is an embodiment. It is not limited by whether or not the light transmissive member 14 is provided. The base 20 is received at the bottom of the housing 10 such that the housing 10 and the base 20 are combined to form a luminaire.

A plurality of feet 22 are provided in FIGS. 1 and 2, and are provided at the bottom of the base 20. And, in the present case, a gas detector 24 is disposed at the bottom of the base 20 for detecting gas. The height of the plurality of feet 22 is higher than the height of the gas detector 24, so that the accuracy detected by the gas detector 24 can be increased. The function of the gas detector 24 can detect whether carbon monoxide, gas or smoke is generated.

FIG. 3 is a schematic diagram of a circuit block connection of the present embodiment, including the gas sensor 24 and the gyroscope accelerator 25 and a control unit 30. The control unit 30 is coupled to the gas detector 24 and the gyro accelerator 25 to generate a radio frequency signal, an illuminating signal or a sound signal, and the generated radio frequency signal, illuminating signal or sound signal is not only It can also be used to communicate with the terminal device 50 for alarm sound and light. Further, the gyro accelerator 25 and the control unit 30 are disposed inside the casing 10. The control unit 30 includes: an analog/digital converter 31, a central computing unit 32, and a radio frequency signal module. 33. An illumination driving module 34 and a sound driving module 35. The digital/analog converter 31 is coupled to the gas detector 24 to convert a analog signal detected by the gas detector 24 into a digital signal. The central operation unit 32 is coupled to the digital/analog converter 31, and performs arithmetic and control on the digital signal. The gyro accelerator 25 is coupled to the central computing unit 32. The central computing unit 32 receives the digital signal to perform the operation and control. The RF signal module 33 is coupled to the central computing unit 32. The central computing unit is coupled to the central computing unit. 32 controls and generates the radio frequency signal. The illumination driving module 34 is coupled to the central operation unit 32, and is controlled by the central operation unit 32 to generate the illumination signal. The sound driving module 35 is coupled to the central computing unit 32, and is controlled by the central computing unit 32 to generate the sound signal.

In the above, when the gas detector 24 detects carbon monoxide, gas or smoke, or the gyro accelerator 25 detects an earthquake, the control unit 30 generates a radio frequency signal, a illuminating signal or a sound. The signal communicates with the terminal device 50, in particular, after the earthquake is detected, the magnitude of the earthquake can be predicted and the corresponding number of alarms is issued. The terminal device 50 includes, but is not limited to, a computer device 51/or an air exhaust device 53. Further, the terminal device 50 includes a radio frequency signal receiving module 52 and/or a LiFi receiving module 54. . The radio frequency signal receiving module 52 and the LiFi receiving module 54 can wirelessly receive the radio frequency signal or the illuminating signal generated by the control unit 30, so that the luminaire with gas and seismic detection of the present invention is detected by the gas detector 24. When there is carbon monoxide, gas or smoke, it can be wireless The message is delivered to the terminal device 50.

The LiFi receiving module 54 is configured to correspond to the illuminating signal emitted by the illuminating driving module 34 of the control unit 30, and can transmit digital information by different segmented optical wavelength signals, and different optical wavelengths can represent different The digital signal is such that when the illuminating signal is transmitted, the digital signal with the digital signal is also transmitted to the other party, and then decoded or interpreted. In addition, the sound signal generated by the sound driving module 35 is mainly used to emit a warning sound to notify people of gas leakage or earthquakes, especially after detecting an earthquake. And the number of corresponding alarm sounds.

4 is a schematic diagram of a circuit block connection of a second embodiment of the present invention. The difference between the embodiment of FIG. 4 and FIG. 3 is that FIG. 4 replaces the control unit 30 of FIG. 3 with the setting of the control module 40. The control module 40 is also disposed inside the casing 10. In addition to the analog/digital converter 41, the central computing unit 42, the RF signal module 43, and the illumination driving module, which are similar to the control unit 30, the control module 40 is included. In addition to the group 44 and the sound driving module 45, a wireless transmission receiving module 46 and a wireless transmission transmitting module 47 are additionally added to the control unit 30. The wireless transmission receiving module 46 is coupled to the central computing unit 42 for performing wireless connection to receive signals. The wireless transmission transmitting module 47 is coupled to the central computing unit 42 for performing wireless connection and transmitting. A wireless signal.

The control module 40 described in the second embodiment of the luminaire with gas and seismic detection is wirelessly connected to at least one handheld device in a wireless connection manner. The device is connected, for example, to a cell phone 61 and/or a tablet 62, or to an infrared (IR) control module 63. The wireless connection is described in that the user can further communicate with the terminal device 50 by using the mobile phone 61, the tablet computer 62 or a remote controller of the infrared (IR) control module 63.

The present invention has a gas and seismic detection luminaire, and further comprises a wireless connection to a cloud server 60; the cloud server 60 is controlled by a wireless connection. The radio frequency signal, the illuminating signal, the audible signal or the wireless signal generated by the control module 40, in turn, controls the terminal device 50 to perform activation or deactivation. The cloud server 60 includes a wireless connection with a remote mobile phone 65, a tablet computer 64 or a computer 66, and accepts the remote mobile phone 65, tablet 64 or computer 66. Remote control and operation for controlling the radio frequency signal, the illuminating signal, the audible signal or the wireless signal generated by the control module 40, and further enabling or disabling the terminal device 50 to perform air exhaust or shut down the gas and water And other measures.

The terminal device 50 of FIG. 4 is compared with the embodiment of FIG. 3. In addition to the RF signal receiving module 52 and the LiFi receiving module 54, the wireless receiving module 56 is connected to the wireless receiving module 56. The module 56 is configured to receive the wireless signal generated by the wireless transmission transmitting module 47 in the control module 40, and can further control the opening or closing of the terminal device 50.

In summary, the present invention provides a gas and seismic detection luminaire provided with a gas detector 24 gyro accelerator 25 and a control unit 30 or a control module 40 for detecting carbon monoxide, gas, smoke or When the earthquake occurs, the gas and seismic detection lamps can perform the opening or closing of the terminal device 50; or the mobile device 61, the tablet computer 62 or the infrared (IR) control module 63 can open the terminal device 50; or by the cloud The server 60 performs the opening or closing of the terminal device 50 by the remote handset 65, the tablet 64 or the computer 66.

The description of the present invention is merely illustrative of the preferred embodiments, and is not intended to limit the scope of the present invention, any techniques for local variation, correction or addition, or numerical changes, etc. Beyond the scope of this creation.

24‧‧‧ gas sensor

25‧‧‧Gyro Accelerator

30‧‧‧Control unit

31‧‧‧Digital/Analog Converter

32‧‧‧Central Computing Unit

33‧‧‧RF signal module

34‧‧‧Lighting driver module

35‧‧‧Sound driver module

50‧‧‧ Terminal equipment

51‧‧‧Computer equipment

52‧‧‧RF signal receiving module

53‧‧‧Exhaust equipment

54‧‧‧LiFi Receiver Module

Claims (9)

A luminaire with gas and seismic detection, comprising: a casing, wherein the casing is provided with a plurality of lamp groups, the light of the plurality of lamp groups is emitted outside the casing; and a base is received At the bottom of the housing; a gas detector disposed at the bottom of the base for detecting gas; and a gyroscope accelerator disposed inside the housing for detecting an earthquake; The unit is coupled to the gas detector and the gyro accelerator to generate a radio frequency signal, an illuminating signal or an audible signal, and a plurality of feet disposed at the bottom of the base, the plurality of feet The height is higher than the height of the gas detector; wherein the gas and seismic detection lamps have a predicted degree of earthquake level after the earthquake detection and a corresponding alarm sound number. The luminaire with gas and seismic detection according to Item 1, wherein the control unit is when the gas detector detects carbon monoxide, gas or smoke or the gyro accelerator detects an earthquake. The action of turning on or off is performed by communicating with the terminal device with the generated radio frequency signal, illuminating signal or sound signal. The luminaire for gas and seismic detection according to Item 1, wherein the control unit comprises: a digital/analog converter coupled to the gas detector, the gas detector The detected analog signal is converted into a digital signal; a central computing unit is coupled to the digital/analog converter to perform operation and control on the digital signal; and an RF signal module coupled to the a central computing unit, wherein the radio frequency signal is controlled by the central computing unit; an illuminating driving module is coupled to the central computing unit, and the central computing unit controls and generates the illuminating signal; An audio driving module is coupled to the central computing unit, and is controlled by the central computing unit to generate the sound signal. The luminaire with gas and seismic detection according to Item 3 of the claim, wherein the radio frequency signal, the illuminating signal or the sound signal is used for communication of the terminal device, and the radio frequency signal receiving module and a LiFi are connected to the terminal device. The receiving module is configured to receive the radio frequency signal or the illuminating signal generated by the control unit; the terminal device is a computer device and/or an exhaust device. A luminaire with gas and seismic detection, comprising: a casing, wherein the casing is provided with a plurality of lamp groups, the light of the plurality of lamp groups is emitted outside the casing; and a base is received At the bottom of the housing; a gas detector disposed at the bottom of the base for detecting gas; and a gyroscope accelerator disposed inside the housing for detecting an earthquake; The module is coupled to the gas detector and the gyro accelerator to generate an RF signal, an illuminating signal or an audible signal; the control module includes: a digital/analog converter coupled to the a gas detector for converting a analog signal detected by the gas detector into a digital signal; a central operation unit coupled to the digital/analog converter to perform the operation on the digital signal And a wireless transmission receiving module coupled to the central computing unit for wirelessly receiving signals; a wireless transmission transmitting module coupled to the central computing unit for wireless connection Transmitting a wireless signal; multiple feet Provided at the bottom of the base, the height of the plurality of feet is higher than the height of the gas detector; wherein the gas and seismic detecting lamps have a predicted degree of magnitude after the earthquake detection And issue the corresponding alarm sound times; The flat panel lamp with gas detection is connected to a handheld device by wireless connection; the radio frequency signal, the illuminating signal, the sound signal or the wireless signal generated by the gas and seismic detecting luminaire is used for A terminal device communicates; the handheld device is wirelessly connected to control a radio frequency signal, a illuminating signal or a sound signal generated by the control module to perform activation or deactivation with the terminal device. The luminaire with gas and seismic detection according to Item 5 of the claim, wherein the flat panel lamp with gas and seismic detection is connected to a cloud server by wireless connection; the cloud server is wirelessly The connection is performed to control the radio frequency signal, the illuminating signal, the audible signal or the wireless signal generated by the control module to perform activation or deactivation with the terminal device. The luminaire with gas and seismic detection according to Item 5, wherein the control module comprises: a radio frequency signal module coupled to the central operation unit and controlled by the central operation unit Generating the radio frequency signal; an illumination driving module coupled to the central computing unit, the central computing unit controls and generates the illumination signal; and a sound driving module coupled to the central computing unit The sound signal is controlled and generated by the central computing unit. The luminaire for gas and seismic detection according to Item 5, wherein the radio frequency signal, the illuminating signal, the sound signal or the wireless signal is used for communication by the terminal device, and the radio frequency signal receiving module is connected to the terminal device. a LiFi receiving module and a wireless receiving module, configured to receive the radio frequency signal, the illuminating signal or the wireless signal generated by the control module; the terminal device is a computer device and / or a row of wind equipment. The luminaire for gas and seismic detection according to Item 5, wherein the cloud server comprises a wireless connection to a remote mobile phone, a tablet computer or a computer, and accepts the remote end Remote control of a mobile phone, tablet or computer, The radio frequency signal, the illuminating signal, the sound signal or the wireless signal generated by the control module is further controlled to be further activated or deactivated by communication with the terminal device.