CN206136416U - Emergent lamps and lanterns of nearly infrared imaging - Google Patents
Emergent lamps and lanterns of nearly infrared imaging Download PDFInfo
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- CN206136416U CN206136416U CN201620971805.5U CN201620971805U CN206136416U CN 206136416 U CN206136416 U CN 206136416U CN 201620971805 U CN201620971805 U CN 201620971805U CN 206136416 U CN206136416 U CN 206136416U
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- infrared imaging
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Abstract
The utility model relates to a security protection technical field, especially, relate to emergent lamps and lanterns of nearly infrared imaging, be connected with remote client, emergent lamps and lanterns of nearly infrared imaging includes the casing and locates the firefighting emergency lamp in the casing, still be equipped with nearly infrared imaging device in the casing, with nearly infrared imaging device and power supply unit and the control firefighting emergency lamp of firefighting emergency lamp electric connection in order to provide nearly infrared imaging device and firefighting emergency lamp power, the controlling means of nearly infrared imaging device and power supply unit coordination work, nearly infrared imaging device including the nearly infrared imaging camera that is used for acquireing the nearly infrared image of surrounding environment, be used for carrying out the information processing module who handles to nearly infrared image and be used for transmitting the nearly infrared image after handling to remote client's signal transmission module the equal and infrared image 1 infrared image 2 of nearly infrared imaging camera, information processing module and signal transmission module. The utility model discloses an emergent lamps and lanterns of nearly infrared imaging, the function is diversified, and the practicality is strong.
Description
Technical field
The utility model is related to safety device technical field, more particularly near infrared imaging emergency luminaire.
Background technology
At present, fire emergency lamp is very commonly used, is often installed on the important of the places such as factory, hotel, school
Position, for emergency lighting.But, existing fire emergency lamp single function often only illuminates and indicates function, it is impossible to feel
Answer field condition, and in fire scenario, if can using fire emergency lamp realize scene of a fire situation sensing, the monitoring of personnel's trend,
Thoroughly the function such as smog monitoring, will provide important field data for fire-fighting, rescue work;Meanwhile, in usual and other cases of emergency
Under, existing this kind of fire emergency lamp can not be used for on-site supervision, it is impossible to the life and property peace of the stronger protection people
Entirely.
Utility model content
The purpose of this utility model is to provide a kind of near infrared imaging emergency luminaire, it is intended to solve the emergent of prior art
Lamp single function, and in fire scenario, it is impossible to monitor the technical problem of scene of a fire situation and personnel's trend through smog.
For achieving the above object, the technical solution of the utility model is:Near infrared imaging emergency luminaire, with Terminal Server Client
Connection, the near infrared imaging emergency luminaire is included in housing and the fire emergency lamp in the housing, the housing also
It is described near red to provide to be provided near infrared imaging device and the near infrared imaging device and fire emergency lamp electric connection
The supply unit and the control fire emergency lamp, the near infrared imaging of outer imaging device and the fire emergency lamp power supply
Device and the control device of the supply unit co-ordination;
The near infrared imaging device is included for obtaining the near infrared imaging camera of the near-infrared image of surrounding environment, using
Transmit in the message processing module processed the near-infrared image and for the near-infrared image after by process
To the signal transmission module of the Terminal Server Client, the near infrared imaging camera, described information processing module and the signal
Transport module is electrically connected with the control device.
Preferably, the near infrared imaging camera include carrying out surrounding environment photosensitive near infrared detector, for right
Surrounding environment realizes near-infrared camera lenses of near infrared imaging and closely red for carrying out the active of near-infrared light filling to surrounding environment
Outer light aid.
Preferably, the near infrared detector, the work of the near-infrared camera lenses and the active near-infrared light aid makes
Arrowband wave band is identical, and the arrowband wave band is 760~1000 nanometers.
Preferably, the near infrared detector is two-dimensional array sensor, and the surface of the near-infrared camera lenses is provided with plated film
Or optical filter.
Preferably, the signal transmission module is Bluetooth signal transmission module, WIFI signal transport module, 4G signal transmissions
Module or GPRS signal transmission modules.
Preferably, the supply unit includes charge power supply and is electrically connected with the charge power supply and to the electricity that charges
The wireless charging module that source is charged, the wireless charging module includes being electrically connected with external power source with by the external power source
Electric signal be converted to electromagnetic signal wireless charging emitting module and with the wireless charging emitting module wirelessly dock with
The electromagnetic signal for receiving is converted to into the wireless charging receiving unit that electric signal is sent to the charge power supply;The electricity that charges
Source is electrically connected with the near infrared imaging device and the fire emergency lamp.
Preferably, the wireless charging emitting module includes the connection external power source and provides the external power source
Electric current is converted to the transmitting coil of electromagnetic signal, and the wireless charging receiving unit includes wirelessly being docked simultaneously with the transmitting coil
The electromagnetic signal for receiving is converted to into electric current to be supplied to the receiving coil of the charge power supply, the transmitting coil to be arranged at
The receiving coil can be received in the range of the electromagnetic signal.
Preferably, the wireless charging receiving unit also includes being electrically connected at the receiving coil with the charge power supply
Between and electromagnetic signal is converted to into the rectification module of current signal.
Preferably, the rectification module includes for the electromagnetic signal of reception to be converted to into electric current and electric current being sent to into institute
State the built-in chip in charge power supply.
Preferably, the wireless charging emitting module also include by the external power source provide electric signal be converted to it is specific
The power transfer module of electric signal, the power transfer module is electrically connected between the external power source and the transmitting coil.
Preferably, the Terminal Server Client is mobile phone, panel computer or computer.
The beneficial effects of the utility model:Near infrared imaging emergency luminaire of the present utility model, in the situation that fire occurs
Under, control device control fire emergency lamp can automatic, realize emergency lighting, be guiding trapped personnel evacuate and expansion go out
Fiery rescue work provides illumination;Meanwhile, control device control near infrared imaging camera work, near infrared imaging camera is in near-infrared
Arrowband wave band carries out active light filling and imaging, due to near-infrared arrowband wave band imaging will with relatively good haze effect,
Near infrared imaging camera remains able to the near-infrared image of the live surrounding environment of more visible acquisition in smog scene, at information
Reason module is processed the near-infrared image that near infrared imaging camera is obtained, will be through information finally by signal transmission module
The near-infrared image of processing module process is transmitted to Terminal Server Client and monitored for administrative staff or fire fighter such that it is able to had
Beneficial to the situation monitoring for ensureing scene of fire, scene of a fire situation and personnel's trend are grasped in real time, for the scene that fire-fighting and rescue provides weight
Information;In addition, under the security situations such as non-generation fire, control device can according to actual needs control near infrared imaging device
Whether work, because near infrared imaging device carries out active light filling and imaging in near-infrared arrowband wave band, the arrowband wave band is to people
Eye is insensitive, and more snugly scenario can be monitored;Near infrared imaging emergency luminaire of the present utility model, function
Variation, it is practical.
Description of the drawings
The structural representation of the near infrared imaging emergency luminaire that Fig. 1 is provided for the utility model embodiment.
The circuit theory schematic diagram of the near infrared imaging emergency luminaire that Fig. 2 is provided for the utility model embodiment.
The near infrared imaging camera of the near infrared imaging emergency luminaire that Fig. 3 is provided for the utility model embodiment is filled with power supply
Put, control device and message processing module connection circuit theory schematic diagram.
The near infrared imaging device of the near infrared imaging emergency luminaire that Fig. 4 is provided for the utility model embodiment is filled with power supply
Put, control device and Terminal Server Client connection circuit theory schematic diagram.
Reference includes:
The accommodating cavity of the accommodating cavity of 10-housing 11-the first 12-the second
13-the three 14-the four 20-fire emergency lamp of accommodating cavity of accommodating cavity
30-near infrared imaging device 31-near infrared imaging, 32-message processing module of camera
33-signal transmission module, 40-supply unit, 41-charge power supply
42-wireless charging module, 50-control device, 60-Terminal Server Client
70-external power source, 311-near infrared detector, 312-near-infrared camera lenses
313-active near-infrared light aid 421-wireless charging emitting module 422-wireless charging receiving unit
4211-transmitting coil, 4212-power transfer module, 4221-receiving coil
4222-rectification module, 42221-built-in chip.
Specific embodiment
Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein ad initio
Same or similar element is represented to same or similar label eventually or the element with same or like function.Below by ginseng
The embodiment for examining the description of accompanying drawing 1~4 is exemplary, it is intended to for explaining the utility model, and it is not intended that to this practicality
New restriction.
In description of the present utility model, it is to be understood that term " length ", " width ", " on ", D score, " front ",
" afterwards ", the orientation or position relationship of the instruction such as "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outward " is based on attached
Orientation or position relationship shown in figure, is for only for ease of description the utility model and simplifies description, rather than indicates or imply
The device or element of indication must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this
The restriction of utility model.
Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance
Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or
Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two
More than, unless otherwise expressly limited specifically.
In the utility model, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " Gu
It is fixed " etc. term should be interpreted broadly, it is for example, it may be fixedly connected, or be detachably connected or integral;Can be
It is mechanically connected, or electrically connects;Can be joined directly together, it is also possible to be indirectly connected to by intermediary, can be two
The connection of element internal or the interaction relationship of two elements.For the ordinary skill in the art, can basis
Concrete condition understands concrete meaning of the above-mentioned term in the utility model.
As shown in Figures 1 to 4, the near infrared imaging emergency luminaire that the utility model embodiment is provided, with Terminal Server Client
60 connections, the connection of near infrared imaging emergency luminaire and Terminal Server Client 60 can be it is wired or wireless, it is described closely red
Outer imaging emergency luminaire includes being additionally provided with housing 10 and the fire emergency lamp 20 in the housing 10, the housing 10 closely
Infreared imaging device 30 and the near infrared imaging device 30 and the fire emergency lamp 20 are electrically connected with described near red to provide
The supply unit 40 of outer imaging device 30 and the power supply of the fire emergency lamp 20 and control the fire emergency lamp 20, described near
Infreared imaging device 30 and the control device 50 of the co-ordination of the supply unit 40;The near infrared imaging device 30 includes using
In near infrared imaging camera 31, the letter for being processed the near-infrared image of the near-infrared image for obtaining surrounding environment
Cease processing module 32 and transmit to the signal transmission of the Terminal Server Client 60 for the near-infrared image after by process
Module 33, the near infrared imaging camera 31, described information processing module 32 and the signal transmission module 33 with the control
Device processed 50 is electrically connected with.
The near infrared imaging emergency luminaire of the utility model embodiment, in the event of a fire, control device 50 is controlled
Fire emergency lamp processed 20 can automatic, realize emergency lighting, be guiding trapped personnel evacuate and launch rescue work of extinguishing fire
Illumination is provided;Meanwhile, the control near infrared imaging of control device 50 camera 31 works, and near infrared imaging camera 31 is in near-infrared arrowband
Wave band carries out active light filling and imaging, because the imaging of near-infrared arrowband wave band will be near red with relatively good haze effect
Outer image camera 31 remains able to the near-infrared image of the live surrounding environment of more visible acquisition, information processing in smog scene
Module 32 is processed the near-infrared image that near infrared imaging camera 31 is obtained, and will be passed through finally by signal transmission module 33
The near-infrared image of the process of message processing module 32 is transmitted to Terminal Server Client 60 and monitored for administrative staff or fire fighter, from
And can be conducive to ensureing the situation monitoring of scene of fire, scene of a fire situation and personnel's trend are grasped in real time, provide for fire-fighting and rescue
The field data of weight;In addition, under the security situations such as non-generation fire, control device 50 can control according to actual needs near red
Whether outer imaging device 30 works, because near infrared imaging device 30 carries out active light filling and imaging in near-infrared arrowband wave band,
The arrowband wave band is insensitive to human eye, and more snugly scenario can be monitored;Whole work process is by control
Device 50 coordinates control;Supply unit 40 is then powered for each consuming parts;Supply unit 40 can be the power supply of wiring
Device 40 or wireless supply unit 40, meanwhile, supply unit 40 can be the electricity of the supply unit 40 or electric power storage charged
Source device 40.
The near infrared imaging emergency luminaire of the utility model embodiment, functional diversities are practical.
As shown in figure 3, in the present embodiment, the near infrared imaging camera 31 includes carrying out surrounding environment photosensitive near red
External detector 311, the near-infrared camera lenses 312 for realizing near infrared imaging to surrounding environment and for carrying out to surrounding environment
The active near-infrared light aid 313 of near-infrared light filling.Specifically, when near infrared imaging camera 31 works, near infrared detector 311
Photosensitive, the then basis of near-infrared camera lenses 312 can be carried out to the surrounding environment of the installed position of near infrared imaging camera 31 in real time
The photosensitive situation of near infrared detector 311 carries out near infrared imaging, when the near infrared light line strength of surrounding environment is not enough to imaging
When, near infrared imaging camera 31 would automatically turn on active near-infrared light aid 313 and carry out scene light filling, so that near-infrared camera lenses
312 can realize light filling.
In the present embodiment, the near infrared detector 311, the near-infrared camera lenses 312 and the active near-infrared light filling
The arrowband wave band that the work of device 313 is used is identical, and the arrowband wave band is 760~1000 nanometers.Specifically, near infrared from detecting
The arrowband wave band that device 311, the near-infrared camera lenses 312 are used with the work of the active near-infrared light aid 313 is identical, can be with
Guarantee the reliability of near infrared imaging, more specifically, arrowband wave band can be 760 nanometers, 800 nanometers, 900 nanometers or 1000
Nanometer, meanwhile, the halfwidth of the arrowband wave band is less than 50 nanometers.
Preferably, the near infrared detector 311 is two-dimensional array sensor, and the surface of the near-infrared camera lenses 312 sets
There are plated film or optical filter.
In the present embodiment, the signal transmission module 33 is Bluetooth signal transmission module, WIFI signal transport module, 4G letters
Number transport module or GPRS signal transmission modules.Specifically, by Bluetooth signal transmission module, WIFI signal transport module,
4G signal transmission modules or GPRS signal transmission modules nearly infrared image delivery to Terminal Server Client 60 for administrative staff or
Person's fire fighter's monitor in real time, selects using suitable signal transmission module 33 according to actual situation.
In the present embodiment, the Terminal Server Client 60 is mobile phone, panel computer or computer.Specifically, remote client
End 60 can select to use more than the one or two kinds of in mobile phone, panel computer or computer, so may insure near
Infrared Image Information can monitor in real time, lifted lay grade, for example, fire fighter and administrative staff can respectively pass through hand
Machine and the real-time monitoring of computer near-infrared image information.
Wherein, near-infrared image can be pictorial information or video information.
As shown in figure 1, wherein, housing 10 can be respectively equipped with spaced apart first accommodating cavity 11, the second accommodating cavity 12,
Three accommodating cavities 13 and the 4th accommodating cavity 14, fire emergency lamp 20 is installed in the first accommodating cavity 11, and near infrared imaging device 30 is pacified
Loaded in the second accommodating cavity 12, supply unit 40 is installed in the 3rd accommodating cavity 13, and control device 50 is installed on the 4th accommodating cavity
14;In this way it can be ensured that fire emergency lamp 20, near infrared imaging device 30, control device 50 and supply unit 40 are each other
Work is not interfered, and reduces fire emergency lamp 20, near infrared imaging device 30, control device 50 and supply unit 40 4 as far as possible
Between the heat that produces mutually assemble and cause high temperature;So as to lift fire emergency lamp 20, near infrared imaging device 30, control
The job stability of device 50 and supply unit 40 4, scientific structure design is rationally, practical.
More specifically, signal transmission module 33 can access local wired network devices or Local wireless network device,
And further internet can be linked into by local network, for locally or remotely transmitting near-infrared image.Certainly, signal
Transport module 33 has the chip for having access to telecom operators' wireless service, for remote transmission near-infrared image.
With reference to shown in Fig. 1~2, in the present embodiment, it is preferable that the supply unit 40 include charge power supply 41 and with it is described
The wireless charging module 42 that charge power supply 41 is electrically connected with and is charged to the charge power supply 41, the wireless charging module
42 include that the wireless charging electrically connected with external power source 70 so that the electric signal of the external power source 70 to be converted to electromagnetic signal is sent out
Penetrate component 421 and wirelessly dock for the electromagnetic signal for receiving to be converted to telecommunications with the wireless charging emitting module 421
Number it is sent to the wireless charging receiving unit 422 of the charge power supply 41;The charge power supply 41 is filled with the near infrared imaging
Put 30 and the fire emergency lamp 20 be electrically connected with.Specifically, supply unit 40 can realize wireless charging, by wireless charging
The electric signal of external power source 70 is converted to electromagnetic signal by emitting module 421, and wireless charging receiving unit 422 is by the electromagnetic signal
Be converted to electric signal and be sent to charge power supply 41, so as to realize wireless charging, finally by the charge power supply 41 be near-infrared into
As device 30 and fire emergency lamp 20 are powered, to guarantee the normal work of near infrared imaging device 30 and fire emergency lamp 20.
With reference to shown in Fig. 1~2, in the present embodiment, the wireless charging emitting module 421 includes the connection external power source
70 and the electric current that the external power source 70 is provided is converted to into the transmitting coil 4211 of electromagnetic signal, the wireless charging reception group
Part 422 includes wirelessly being docked with the transmitting coil 4211 and that the electromagnetic signal for receiving is converted to into electric current is described to be supplied to
The receiving coil 4221 of charge power supply 41, the transmitting coil 4211 be arranged at the receiving coil 4221 can receive it is described
In the range of electromagnetic signal.Specifically, when the not enough power supply of charge power supply 41, transmitting coil 4211 and the nothing of receiving coil 4221
Line is docked to be charged to charge power supply 41, so as to avoiding using connecting wire or changing the mode of battery to charge power supply
41 are charged, easy to use.
As shown in Fig. 2 in this embodiment, the placement distance of transmitting coil 4211 and receiving coil 4221 is so as to receive line
Circle 4221 can receive electromagnetic signal and be advisable.
With reference to shown in Fig. 2, in the present embodiment, the wireless charging receiving unit 422 also includes being electrically connected at described connecing
The rectification module 4222 of current signal is converted between take-up circle 4221 and the charge power supply 41 and by electromagnetic signal.Specifically
, rectification module 4222 is connected between receiving coil 4221 and charge power supply 41, and will receive the electricity of receiving coil 4221
Magnetic signal is converted to current signal, and to be charged to charge power supply 41, using effect is very good.
With reference to shown in Fig. 2, in the present embodiment, the rectification module 4222 is included for the electromagnetic signal of reception to be converted to
Electric current and the built-in chip 42221 being sent in electric current in the charge power supply 41.Specifically, rectification module 4222 will be received
Electromagnetic signal be sent in built-in chip 42221, the electromagnetic signal is converted to into electric current using built-in chip 42221 and is transmitted
To charge power supply 41, to complete wireless charging function.
With reference to shown in Fig. 2, in the present embodiment, the wireless charging emitting module 421 is also included the external power source 70
The electric signal of offer is converted to the power transfer module 4212 of specific electrical signal, and the power transfer module 4212 is electrically connected to institute
State between external power source 70 and the transmitting coil 4211.Specifically, it is outer by the way that power transfer module 4212 is electrically connected at
To receive the electric signal that external power source 70 is provided between portion's power supply 70 and transmitting coil 4211, and the electric signal is converted to specific
During electric signal is to be sent to transmitting coil 4211, i.e., the electric signal of external power source 70 is converted to using power transfer module 4212
The specific electrical signal that transmitting coil 4211 can be recognized and changed, for example, external power source 70 provides ac signal, is turned using power supply
The ac signal is converted to mold changing block 4212 DC signal needed for transmitting coil 4211, but not limited to this.
Understand that the utility model is, with above-described good characteristic, to be able to make it in use in sum, promote
The efficiency that do not have in conventional art and there is practicality, become the product of a great practical value.
Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model
Any modification, equivalent or improvement made within the thought and principle of utility model etc., should be included in the utility model
Protection domain within.
Claims (8)
1. near infrared imaging emergency luminaire, is connected with Terminal Server Client, and the near infrared imaging emergency luminaire includes housing and sets
Fire emergency lamp in the housing, it is characterised in that:Near infrared imaging device and described near red is additionally provided with the housing
Outer imaging device and the fire emergency lamp are electrically connected with to provide the near infrared imaging device and fire emergency lamp electricity
The supply unit in source and control the fire emergency lamp, the near infrared imaging device and the supply unit co-ordination
Control device;
The near infrared imaging device is included for obtaining the near infrared imaging camera of the near-infrared image of surrounding environment, for right
Message processing module and transmit to institute for the near-infrared image after by process that the near-infrared image is processed
State the signal transmission module of Terminal Server Client, the near infrared imaging camera, described information processing module and the signal transmission
Module is electrically connected with the control device;
The near infrared imaging camera includes carrying out surrounding environment photosensitive near infrared detector, for realizing to surrounding environment
The near-infrared camera lenses of near infrared imaging and the active near-infrared light aid for carrying out near-infrared light filling to surrounding environment;It is described
The arrowband wave band that near infrared detector, the near-infrared camera lenses are used with the work of the active near-infrared light aid is identical, and
The arrowband wave band is 760~1000 nanometers.
2. near infrared imaging emergency luminaire according to claim 1, it is characterised in that:The near infrared detector is two dimension
Sensor array, the surface of the near-infrared camera lenses is provided with plated film or optical filter.
3. near infrared imaging emergency luminaire according to claim 1, it is characterised in that:The signal transmission module is bluetooth
Signal transmission module, WIFI signal transport module, 4G signal transmission modules or GPRS signal transmission modules.
4. the near infrared imaging emergency luminaire according to any one of claims 1 to 3, it is characterised in that:The supply unit
The wireless charging module for being electrically connected with including charge power supply and with the charge power supply and the charge power supply being charged, institute
Stating wireless charging module includes electrically connecting that the electric signal of the external power source is converted to the nothing of electromagnetic signal with external power source
Line charging emitting module and wirelessly dock for the electromagnetic signal for receiving to be converted to electricity with the wireless charging emitting module
Signal is sent to the wireless charging receiving unit of the charge power supply;The charge power supply and the near infrared imaging device and institute
State fire emergency lamp electric connection.
5. near infrared imaging emergency luminaire according to claim 4, it is characterised in that:The wireless charging emitting module bag
Include the connection external power source and the electric current that the external power source is provided is converted to into the transmitting coil of electromagnetic signal, it is described wireless
Charging receiving unit includes wirelessly being docked with the transmitting coil and is converted to electric current to be supplied to by the electromagnetic signal for receiving
The receiving coil of the charge power supply, the transmitting coil is arranged at the receiving coil and can receive the electromagnetic signal
In the range of.
6. near infrared imaging emergency luminaire according to claim 5, it is characterised in that:The wireless charging receiving unit is also
Including being electrically connected between the receiving coil and the charge power supply and electromagnetic signal be converted to into the rectification of current signal
Module.
7. near infrared imaging emergency luminaire according to claim 6, it is characterised in that:The rectification module is included for inciting somebody to action
The electromagnetic signal of reception is converted to electric current and electric current is sent to into the built-in chip in the charge power supply.
8. near infrared imaging emergency luminaire according to claim 4, it is characterised in that:The wireless charging emitting module is also
Including the power transfer module that the electric signal that the external power source is provided is converted to specific electrical signal, the power transfer module
It is electrically connected between the external power source and the transmitting coil.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620971805.5U CN206136416U (en) | 2016-08-29 | 2016-08-29 | Emergent lamps and lanterns of nearly infrared imaging |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620971805.5U CN206136416U (en) | 2016-08-29 | 2016-08-29 | Emergent lamps and lanterns of nearly infrared imaging |
Publications (1)
Publication Number | Publication Date |
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CN206136416U true CN206136416U (en) | 2017-04-26 |
Family
ID=58565297
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620971805.5U Active CN206136416U (en) | 2016-08-29 | 2016-08-29 | Emergent lamps and lanterns of nearly infrared imaging |
Country Status (1)
Country | Link |
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CN (1) | CN206136416U (en) |
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2016
- 2016-08-29 CN CN201620971805.5U patent/CN206136416U/en active Active
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GR01 | Patent grant | ||
CP02 | Change in the address of a patent holder |
Address after: 518000, 2nd Floor, Building B2, Zhanfeng Industrial Park, Hangcheng Industrial Zone, Taoyuan Community, Xixiang Street, Bao'an District, Shenzhen City, Guangdong Province Patentee after: SHENZHEN WAVE MULTIMEDIA Co.,Ltd. Address before: 518100 Guangdong Shenzhen Baoan District Xixiang Street Jie Gang community yoke lot Fuchuan Industrial Park 2 buildings 3 and 4 floor. Patentee before: SHENZHEN WAVE MULTIMEDIA Co.,Ltd. |
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CP02 | Change in the address of a patent holder |