CN208143334U - A kind of visualizer round the clock - Google Patents

Abstract

The utility model provides a kind of visualizer round the clock, including master controller and shell, master controller is connected with infrared acquisition drive module, low-light drive module, liquid crystal driver module, proximity sensor, laser ranging module, locating module, power module and data memory module；Infrared acquisition drive module is connected with infrared detection module, and low-light drive module is connected with low-light sensing module, and liquid crystal driver module is connected with display eyepiece module；Infrared detection module includes infrared detector and infrared lens；Low-light sensing module includes low-light level sensor and low-light camera lens；Display eyepiece module includes the first display eyepiece, the second display eyepiece and LCD screen；Laser ranging module includes laser emission element, laser pick-off unit, Laser emission camera lens and laser pick-off camera lens；The inspection surface of shell is arranged in infrared lens, low-light camera lens, Laser emission camera lens and laser pick-off camera lens, and the display surface of shell is arranged in the first display eyepiece, the second display eyepiece and proximity sensor.

Description

A kind of visualizer round the clock

Technical field

The utility model belongs to observation instrument apparatus field, and in particular to a kind of visualizer round the clock.

Background technique

Currently, when carrying out such as detecting special observation, it is higher and higher to the clarity requirement of target, thus to instrument Equipment precision requirement is higher and higher, conventional observation instrument, under complete night, haze sky and smoky condition, can not identify target, Or resolution is lower, and for hiding target, it is not easy to identify；Meanwhile when there are other special requirements, such as provide The accurate location and image of observed object, the instrument and equipment quantity needed is more, inconvenient to carry, while needing disposable operation A variety of instrument and equipments, it is time-consuming and laborious.

This is the deficiencies in the prior art, therefore, in view of the above-mentioned drawbacks in the prior art, provides a kind of visualizer round the clock, It is necessary.

Summary of the invention

The purpose of this utility model is that for above-mentioned conventional observation instrument can not identify in the presence of a harsh environment target and When obtaining the information of a variety of observed objects, the defect that instrument and equipment is more is needed, a kind of visualizer round the clock is provided, on solving State technical problem.

To achieve the above object, the utility model provides following technical scheme：

A kind of visualizer, including master controller and shell round the clock, master controller are connected with infrared acquisition drive module, low-light Drive module, liquid crystal driver module, proximity sensor, laser ranging module, locating module, power module and data store mould Block；

Infrared acquisition drive module is connected with infrared detection module, and low-light drive module is connected with low-light sensing module, liquid Brilliant drive module is connected with eyepiece display module；

Infrared detection module includes infrared detector and infrared lens；

Low-light sensing module includes low-light level sensor and low-light camera lens；

Eyepiece display module includes the first display eyepiece, the second display eyepiece and LCD screen, LCD screen and liquid crystal Drive module connection；

Laser ranging module includes laser emission element, laser pick-off unit, Laser emission camera lens and laser pick-off mirror Head, laser emission element and laser pick-off unit are connect with master controller；Laser ranging module for obtain observed object with Scopic distance round the clock；

Locating module includes coordinate setting unit and angle positioning unit, coordinate setting unit and angle positioning unit with Master controller connection；Coordinate setting unit is used for for obtaining scopic real-time coordinates position round the clock, angle positioning unit To visualizer round the clock and observed object angulation, the observed object obtained further according to laser ranging module and visualizer round the clock Distance, the coordinate value of observed object is calculated；

The shell includes inspection surface, display surface, top surface, bottom surface, first side and second side；

In the inspection surface of shell, along the first side of shell to the direction of second side, infrared lens, low-light camera lens, Laser emission camera lens and laser pick-off camera lens are set gradually；

The display surface of shell is arranged in first display eyepiece and the second display eyepiece, and proximity sensor setting is in the first display Position between eyepiece and the second display eyepiece, the first display eyepiece are arranged at first side, and the setting of the second display eyepiece exists At second side, the first display eyepiece is provided with the first snoot, the second display eyepiece is provided with the second snoot；

When proximity sensor detects human eye close to the first display eyepiece and the second display eyepiece, master controller lights liquid crystal Screen, when normal condition, the reflection light of observed object through low-light lens imaging on low-light level sensor, on low-light level sensor The image reimaging of observed object is to LCD screen；When mal-condition, infrared lens and low-light camera lens cooperate, and infrared detector is logical The infrared ray that infrared lens detection observed object issues is crossed, when searching observed object, the infrared ray warp of observed object reflection In the image reimaging to LCD screen of observed object of the low-light lens imaging on low-light level sensor, low-light level sensor；

Proximity sensor detects human eye far from the first display eyepiece and when the second display eyepiece, and master controller closes liquid crystal Screen.

It further, further include switch key, switch key is connect with master controller, and switch key is arranged on the display face Second side and the second display eyepiece between position.Switch key realizes scopic switching on and shutting down operation round the clock.

Further, data memory module is connected with data output interface, and data output interface is arranged in shell display surface Second side and top surface angle.Data output interface can export the information of the observed object of storage to external equipment. Data output interface uses water proof and dust proof interface.

Further, power module includes battery and charge-discharge control unit, and charge-discharge control unit is connected with external confession Electrical interface；External power supply interface is for charging the battery；

The position on shell inspection surface, between low-light camera lens and bottom surface is arranged in external power supply interface；External power supply connects Mouth uses water proof and dust proof interface；

Battery compartment is provided at inspection surface position in housing top surface；

Battery is arranged in battery compartment.

Further, master controller is also connected with laser ranging key, and laser ranging key is arranged in housing top surface At second side position.Laser ranging issues laser by key control laser emission element, while laser pick-off unit is received and returned Laser.

Further, master controller is also connected with record key of taking pictures, and record key of taking pictures is arranged in housing top surface At second side position, and the position between laser ranging key and display surface is arranged in record key of taking pictures.Take pictures video recording by Key is for the real-time image of hourly observation target and is stored, and user is helped to synchronize sampling evidence obtaining.

Further, master controller is also connected with focal length increase key and focal length reduces key, and focal length increases key setting At first side in housing top surface, focal length reduces key and is arranged at the first side in housing top surface, and focal length is less The position between focal length increase key and display surface is arranged in key.Focal length increases key and passes for increasing low-light camera lens and low-light The distance between sensor, focal length reduce key for reducing the distance between low-light camera lens and low-light level sensor, increase focal length and Reduce selecting to observe that clearly image is target for focal length.

Further, master controller is also connected with rocking bar key, and first on the display surface of shell is arranged in rocking bar key Position between side and the first display eyepiece.Rocking bar key presses key control by rocking bar for realizing the control of menu image Menu adjusts image effect.

Further, the infrared detector uses the infrared detector of 640 × 480 long wave non-refrigeration type of model；Institute State the low-light level sensor that low-light level sensor uses CMOS；The infrared detector of 640 × 480 long wave non-refrigeration types can provide good The image of high resolution, low-light level sensor and the infrared detector of CMOS is used cooperatively, so that user be helped to find hidden mesh Mark；

The coordinate setting unit is using Beidou II for the coordinate setting unit of satellite positioning；Angle positioning unit uses number Word electronic compass；Coordinate setting unit and angle positioning unit can help user's location observation position and observed object coordinate and The geography information in orientation, to find and dispose rapidly target；

The laser emission element uses the laser emission element of eye-safe；The optical maser wavelength of laser emission element transmitting For 1570nm, this wave band is safety band relative to human eye.

Further, the inspection surface of the shell and the same first side of display surface, second side, top surface and underrun The sealing of silica gel sealing pad；Water proof and dust proof is realized in sealing；

The shell uses almag material, light-weight, easy to carry.

The beneficial effects of the utility model are：

The utility model can identify observed object under severe conditions, easy to operate, and have positioning, take pictures Function meets a variety of demands, reduces the quantity of instrument, avoids while operating the cumbersome of a variety of instruments；This is practical new simultaneously The instrument of type also has fabulous waterproof and dustproof performance, compact-sized, light-weight, durable, can be in full climatic environment Middle use.

In addition, the utility model design principle is reliable, structure is simple, has very extensive application prospect.

It can be seen that the utility model compared with prior art, has substantive features and progress, the beneficial effect implemented Fruit is also obvious.

Detailed description of the invention

Fig. 1 is the utility model principle schematic diagram；

Fig. 2 is the utility model structure diagram 1；

Fig. 3 is the utility model structure diagram 2；

Fig. 4 is the structural schematic diagram of the utility model display surface；

Wherein, 1- master controller；2- shell；2.1- inspection surface；2.2- display surface；2.3- top surface；2.4- bottom surface；2.5- the One side；2.6- second side；3- infrared detection module；3.1- infrared detector；3.2- infrared lens；4- low-light senses mould Block；4.1- low-light level sensor；4.2- low-light camera lens；5- laser ranging module；5.1- laser transmission unit；5.2- laser pick-off list Member；5.3- Laser emission camera lens；5.4- laser pick-off camera lens；6- locating module；6.1- coordinate setting unit；The positioning of 6.2- angle Unit；7- power module；7.1 battery；7.2- charge-discharge control unit；8- data memory module；9- infrared acquisition drive module； 10- low-light drive module；11- switch key；12- data output interface；The external power supply interface of 13-；14- battery compartment；15- laser Ranging key；16- takes pictures record key；17- focal length increases key；18- focal length reduces key；19- rocking bar key；20- eyepiece Display module；20.1- the first display eyepiece；20.2- the second display eyepiece；20.3- LCD screen；21.1- the first snoot； 21.2- the second snoot；22- liquid crystal driver module；23- proximity sensor.

Specific embodiment：

It is specific below in conjunction with this to enable the purpose of this utility model, feature, advantage more obvious and understandable The technical solution in the utility model is clearly and completely described in attached drawing in embodiment.

As shown in Figure 1, the utility model provides a kind of visualizer, including master controller 1 and shell 2 round the clock, master controller 1 It is connected with infrared acquisition drive module 9, low-light drive module 10, liquid crystal driver module 22, proximity sensor 23, laser ranging mould Block 5, locating module 6, power module 7, data memory module 8 and switch key 11；

Infrared acquisition drive module 9 is connected with infrared detection module 3, and low-light drive module 10 is connected with low-light sensing module 4, liquid crystal driver module 22 is connected with eyepiece display module 20, and data memory module 8 is connected with data output interface 12；

Infrared detection module 3 includes infrared detector 3.1 and infrared lens 3.2；Infrared detector 3.1 uses model The infrared detector of 640 × 480 long wave non-refrigeration types；

Low-light sensing module 4 includes low-light level sensor 4.1 and low-light camera lens 4.2；The low-light level sensor 4.1 uses CMOS Low-light level sensor；

Eyepiece display module 20 includes the first display eyepiece 20.1, the second display eyepiece 20.2 and LCD screen 20.3, LCD screen 20.3 is connect with liquid crystal driver module 22；

Laser ranging module 5 include laser emission element 5.1, laser pick-off unit 5.2, Laser emission camera lens 5.3 and Laser pick-off camera lens 5.4, laser emission element 5.1 and laser pick-off unit 5.2 are connect with master controller 1；Laser ranging mould Block 5 is for obtaining observed object and scopic distance round the clock；Laser emission element 5.1 uses the Laser emission list of eye-safe Member；

Locating module 6 includes coordinate setting unit 6.1 and angle positioning unit 6.2, and coordinate setting unit 6.1 and angle are fixed Bit location 6.2 is connect with master controller 1；Coordinate setting unit 6.1 is for obtaining scopic real-time coordinates position round the clock, angle Degree positioning unit 6.2 is obtained for obtaining visualizer round the clock and observed object angulation further according to laser ranging module 5 Observed object and scopic distance round the clock, are calculated the coordinate value of observed object；Coordinate setting unit 6.1 uses Beidou II For the coordinate setting unit of satellite positioning；Angle positioning unit 6.2 uses digital compass；

Power module 7 includes battery 7.1 and charge-discharge control unit 7.2, and charge-discharge control unit 7.2 is connected with external confession Electrical interface 13；External power supply interface 13 is used to charge to battery 7.1；

As shown in Figure 2, Figure 3 and Figure 4, the shell 2 include inspection surface 2.1, display surface 2.2, top surface 2.3, bottom surface 2.4, First side 2.5 and second side 2.6；

In the inspection surface 2.1 of shell 2, the direction of second side 2.6, infrared lens are arrived along the first side 2.5 of shell 2 3.2, low-light camera lens 4.2, Laser emission camera lens 5.3 and laser pick-off camera lens 5.4 are set gradually；

The display surface 2.2 of shell 2, proximity sensor 23 is arranged in first display eyepiece 20.1 and the second display eyepiece 20.2 Position between first display eyepiece 20.1 and the second display eyepiece 20.2 is set, and the first display eyepiece 20.1 is arranged first At side 2.5, the second display eyepiece 20.2 is arranged at second side 2.6, and the first display eyepiece 20.1 is provided with first Snoot 21.1 is provided with the second snoot 21.2 around the second display eyepiece 20.2；

When proximity sensor 23 detects human eye close to the first display eyepiece 20.1 and the second display eyepiece 20.2, main control Device 1 lights LCD screen 20.3, and when normal condition, the reflection light of observed object is imaged on low-light sensing through low-light camera lens 4.2 On device 4.1, the image reimaging of the observed object on low-light level sensor 4.1 to LCD screen 20.3；When mal-condition, infrared mirror First 3.2 cooperate with low-light camera lens 4.2, and infrared detector 3.1 detects the infrared ray that observed object issues by infrared lens 3.2, When searching observed object, the infrared ray of observed object reflection is imaged on low-light level sensor 4.1, low-light through low-light camera lens 4.2 In the image reimaging to LCD screen 20.3 of observed object on sensor 4.1；

Proximity sensor 23 detect human eye far from the first display eyepiece 20.1 and when the second display eyepiece 20.2, main control Device 1 closes LCD screen 20.3；

The position between the second side 2.6 on display surface 2.2 and the second display eyepiece 20.2 is arranged in switch key 11； Switch key 11 realizes scopic switching on and shutting down operation round the clock；

Second side 2.6 and 2.3 angle of top surface of 2 display surface 2.2 of shell is arranged in data output interface 12；Data are defeated Outgoing interface 12 can export the information of the observed object of storage to external equipment；Data output interface 12 is connect using water proof and dust proof Mouthful；

The position on 2 inspection surface 2.1 of shell, between low-light camera lens 4.2 and bottom surface 2.4 is arranged in external power supply interface 13 It sets；External power supply interface 13 uses water proof and dust proof interface；

Battery compartment 14 is provided at 2.2 position of inspection surface on 2 top surface 2.3 of shell；

Battery 7.1 is arranged in battery compartment 14.

In above-described embodiment, master controller 1 is also connected with laser ranging key 15, record key 16 of taking pictures, focal length and increases Key 17, focal length reduce key 18 and rocking bar key 19,

As shown in Figure 2, Figure 3 and Figure 4, second side 2.6 on 2 top surface 2.3 of shell are arranged in laser ranging key 15 Set place；Laser ranging key 15 controls laser emission element 5.1 and issues laser, while laser pick-off unit 5.2 receives return Laser；

Record key 16 of taking pictures is arranged at 2.6 position of second side on 2 top surface 2.3 of shell, and record key of taking pictures 16 are arranged in the position between laser ranging key 15 and display surface 2.2；Record key 16 of taking pictures is real for hourly observation target When image and stored, help user synchronize sampling evidence obtaining；

Focal length increases key 17 and is arranged at the first side 2.5 on 2 top surface 2.3 of shell, and focal length reduces key 18 and is arranged At the first side 2.5 on 2 top surface 2.3 of shell, and the less setting of key 18 of focal length increases key 17 and display surface in focal length Position between 2.2；Focal length increases key 17 for increasing the distance between low-light camera lens 4.2 and low-light level sensor 4.1, focal length Key 18 is reduced for reducing the distance between low-light camera lens 4.2 and low-light level sensor 4.1, increasing focal length and reducing the choosing of focal length It selects to observe that clearly image is target；

Rocking bar key 19 is arranged between the first side 2.5 on the display surface 2.2 of shell 2 and the first display eyepiece 20.1 Position；Rocking bar key 19 controls menu by rocking bar key 19 to adjust image effect for realizing the control of menu image；

The inspection surface 2.1 and display surface 2.2 of the shell 2 with first side 2.5, second side 2.6, top surface 2.3 and Bottom surface 2.4 is sealed by silica gel sealing pad；Water proof and dust proof is realized in sealing；

The shell 2 uses almag material；It is light-weight, it is easy to carry.

The embodiments of the present invention be it is illustrative and not restrictive, above-described embodiment, which is only to aid in, understands this reality With novel, therefore the utility model is not limited to embodiment described in specific embodiment, all by those skilled in the art's root The other specific embodiments obtained according to the technical solution of the utility model also belong to the range of the utility model protection.

Claims (10)

1. a kind of visualizer round the clock, which is characterized in that including master controller（1）And shell（2）, master controller（1）It is connected with red Outer detection drive module（9）, low-light drive module（10）, liquid crystal driver module（22）, proximity sensor（23）, laser ranging mould Block（5）, locating module（6）, power module（7）And data memory module（8）；

Infrared acquisition drive module（9）It is connected with infrared detection module（3）, low-light drive module（10）It is connected with low-light sensing mould Block（4）, liquid crystal driver module（22）It is connected with eyepiece display module（20）；

Infrared detection module（3）Including infrared detector（3.1）And infrared lens（3.2）；

Low-light sensing module（4）Including low-light level sensor（4.1）With low-light camera lens（4.2）；

Eyepiece display module（20）Including the first display eyepiece（20.1）, the second display eyepiece（20.2）And

LCD screen（20.3）, LCD screen（20.3）With liquid crystal driver module（22）Connection；

Laser ranging module（5）Including laser emission element（5.1）, laser pick-off unit（5.2）, Laser emission camera lens（5.3） And laser pick-off camera lens（5.4）, laser emission element（5.1）And laser pick-off unit（5.2）And master controller（1）Even It connects；

Locating module（6）Including coordinate setting unit（6.1）With angle positioning unit（6.2）, coordinate setting unit（6.1）The angle and Spend positioning unit（6.2）And master controller（1）Connection；

The shell（2）Including inspection surface（2.1）, display surface（2.2）, top surface（2.3）, bottom surface（2.4）, first side（2.5） And second side（2.6）；

In shell（2）Inspection surface（2.1）, along shell（2）First side（2.5）To second side（2.6）Direction, it is red Outer camera lens（3.2）, low-light camera lens（4.2）, Laser emission camera lens（5.3）And laser pick-off camera lens（5.4）It sets gradually；

First display eyepiece（20.1）With the second display eyepiece（20.2）It is arranged in shell（2）Display surface（2.2）, close to sensing Device（23）It is arranged in the first display eyepiece（20.1）With the second display eyepiece（20.2）Between position, the first display eyepiece （20.1）It is arranged in first side（2.5）Place, the second display eyepiece（20.2）It is arranged in second side（2.6）Place surrounds first Display eyepiece（20.1）It is provided with the first snoot（21.1）, surround the second display eyepiece（20.2）It is provided with the second snoot （21.2）.

2. a kind of visualizer round the clock as described in claim 1, which is characterized in that further include switch key（11）, switch key （11）With master controller（1）Connection, switch key（11）It is arranged in display surface（2.2）On second side（2.6）It is aobvious with second Show eyepiece（20.2）Between position.

3. a kind of visualizer round the clock as described in claim 1, which is characterized in that data memory module（8）It is defeated to be connected with data Outgoing interface（12）, data output interface（12）It is arranged in shell（2）Display surface（2.2）Second side（2.6）With top surface（2.3） Angle.

4. a kind of visualizer round the clock as described in claim 1, which is characterized in that power module（7）Including battery（7.1）With fill Control of discharge unit（7.2）, charge-discharge control unit（7.2）It is connected with external power supply interface（13）；

External power supply interface（13）It is arranged in shell（2）Inspection surface（2.1）On, in low-light camera lens（4.2）With bottom surface（2.4）Between Position；

In shell（2）Top surface（2.3）On inspection surface（2.2）Battery compartment is provided at position（14）；

Battery（7.1）It is arranged in battery compartment（14）It is interior.

5. a kind of visualizer round the clock as described in claim 1, which is characterized in that master controller（1）It is also connected with laser ranging Key（15）, laser ranging key（15）It is arranged in shell（2）Top surface（2.3）On second side（2.6）At position.

6. a kind of visualizer round the clock as claimed in claim 5, which is characterized in that master controller（1）It is also connected with video recording of taking pictures Key（16）, record key of taking pictures（16）It is arranged in shell（2）Top surface（2.3）On second side（2.6）At position, and take pictures Record key（16）It is arranged in laser ranging key（15）With display surface（2.2）Between position.

7. a kind of visualizer round the clock as described in claim 1, which is characterized in that master controller（1）It is also connected with focal length increase Key（17）Key is reduced with focal length（18）, focal length increase key（17）It is arranged in shell（2）Top surface（2.3）On first side （2.5）Place, focal length reduce key（18）It is arranged in shell（2）Top surface（2.3）On first side（2.5）Place, and focal length is reduced Key（18）Setting increases key in focal length（17）With display surface（2.2）Between position.

8. a kind of visualizer round the clock as described in claim 1, which is characterized in that master controller（1）It is also connected with rocking bar key （19）, rocking bar key（19）It is arranged in shell（2）Display surface（2.2）On first side（2.5）With the first display eyepiece （20.1）Between position.

9. a kind of visualizer round the clock as described in claim 1, which is characterized in that

The infrared detector（3.1）Using the infrared detector of 640 × 480 long wave non-refrigeration type of model；

The low-light level sensor（4.1）Using the low-light level sensor of CMOS；

The coordinate setting unit（6.1）Using Beidou II for the coordinate setting unit of satellite positioning；

The angle positioning unit（6.2）Using digital compass；

The laser emission element（5.1）Using the laser emission element of eye-safe.

10. a kind of visualizer round the clock as described in claim 1, which is characterized in that the shell（2）Inspection surface（2.1）With Display surface（2.2）Same first side（2.5）, second side（2.6）, top surface（2.3）And bottom surface（2.4）Pass through silica gel sealing pad Sealing；

The shell（2）Using almag material.