CN106610554A - Bullet-proof anti-damage monitoring camera and monitoring device - Google Patents

Abstract

The invention discloses a bullet-proof anti-damage monitoring camera and a monitoring device. The monitoring camera comprises a hollow lens cone main body. The front end of the lens cone main body is a light inlet port. A light output port is arranged in the side wall of the lens cone main body. A reflection component is arranged in the lens cone main body. Light entering the light inlet port is reflected by the reflection component, and is emitted from the light output port. The monitoring camera has the function of changing the direction of light propagation, so that the monitoring device is not be damaged by a bullet after the monitoring camera is mounted.

Description

A kind of shellproof vandal-proof monitoring camera and supervising device

Technical field

The present invention relates to monitoring technology field, more specifically, it relates to a kind of shellproof vandal-proof monitoring camera and supervising device.

Background technology

Optical monitoring equipment is that the optical radiation Energy distribution for receiving measured target using optical detector and image-forming objective lens obtains image.In military field, the application of optical monitoring equipment is especially extensive, as military equipments such as tank, scout car, naval vessels, is provided with optical monitoring equipment.As shown in figure 1, at present, no matter with optical monitoring equipment wherein, its camera lens is wholely set with the main body of optical monitoring equipment, and substantially remains in same level position.So in actual military activity; enemy is in order to destroy the reconnaissance capability of one's own side; directly the camera lens of optical monitoring equipment would generally be broken; and bullet is through after camera lens; can continue in the main body for penetrating into optical monitoring equipment along straight line; destroy the circuit modules such as its internal focus planardetector and main control circuit; optical monitoring equipment is caused integrally to damage; cannot be continuing with; as a result the reconnaissance capability for causing one's own side is lost; and the later stage needs integrally to replace the optical monitoring equipment of damage, causes the raising of funds cost.

The content of the invention

In view of the shortcomings of the prior art, this practicality provides below scheme：

A kind of shellproof vandal-proof monitoring camera, including the lens barrel main body by made by bullet resistant material, the front end of lens barrel main body is light inlet, and the side wall of the lens barrel main body is provided with a light-emitting window；The inside of the lens barrel main body is provided with reflection subassembly, after the light entered from light inlet reflection subassembly reflection described in, projects from the light-emitting window.

Further, the reflection subassembly includes reflection film roll cylinder, reflection film roll cylinder has been damaged and drives the drive mechanism for having damaged reflectance coating spool turns；The reflectance coating for reflection light is wound with the reflection film roll cylinder, its free end is fixed on and damage in reflection film roll cylinder.

Further, the inwall of the lens barrel main body is provided with the accommodating cavity placed reflection film roll cylinder and damaged reflection film roll cylinder, and the accommodating cavity has the opening passed through for reflectance coating.

Further, incidence angle of the light on reflection subassembly is less than 45 degree；The side that the light-emitting window is located at bullet is partial to light inlet from light inlet with sail angle away from the motion path that the side of light-emitting window is injected.

Further, the lens barrel main body is in integrally and is bent downwardly or is obliquely installed.

Further, width of the width of the reflectance coating more than or equal to the light inlet of lens barrel main body；The both sides of reflectance coating are pasted with high toughness plastic film or high-strength membrane.

Further, the drive mechanism includes handwheel and belt；The diapire of the lens barrel main body is provided with the opening passed through for belt；The handwheel is located at lens barrel body exterior, and is connected with reflection film roll cylinder by belt.

Further, the front end of the lens barrel main body is provided with a windproof assembly；The windproof assembly includes being fixed on the component body of lens barrel body front end, and the front end of the component body is provided with least one air inlet and at least one air outlet；The air inlet is more than air outlet；The air channel of air inlet and air outlet is communicated with inside the component body, the interior air inlet without leave in the air channel is gradually reduced to air outlet；The air outlet to the axis of the light inlet of lens barrel main body inclines.

Further, also including switching lens barrel, it is in hollow setting that it is internal, and front end has light inlet, and rear end has light-emitting window；The light inlet of the switching lens barrel is correspondingly arranged with the light-emitting window of lens barrel main body, so that the light projected from the light-emitting window of lens barrel main body enters the light inlet of switching lens barrel.

The present invention also provides a kind of supervising device, including device body, and also including shellproof vandal-proof monitoring camera, the light inlet of described device body is corresponding with the light-emitting window of shellproof vandal-proof monitoring camera；Shellproof vandal-proof monitoring camera, including the lens barrel main body by made by bullet resistant material, the front end of lens barrel main body is light inlet, and the side wall of the lens barrel main body is provided with a light-emitting window；The inside of the lens barrel main body is provided with reflection subassembly, after the light entered from light inlet reflection subassembly reflection described in, projects from the light-emitting window.

Compared with prior art, it is an advantage of the invention that：In having abandoned prior art, by supervising device（Such as thermal imaging system）Main part and camera lens part set up the theory put point-blank separately, and then by above scheme, realize the main part and camera lens of supervising device in being crisscross arranged such that it is able to effectively protect main part without damage.

Description of the drawings

Fig. 1 is the structural representation of thermal imaging system in prior art；

Fig. 2 is the schematic diagram that lens barrel main body adopts warp architecture in the present invention；

Fig. 3 is a kind of schematic diagram of embodiment of windproof assembly；

Fig. 4 is that a kind of schematic diagram of transfer lens is adopted in the present invention；

Fig. 5 is using the schematic diagram of another kind of transfer lens in the present invention；

Fig. 6 is the operating diagram of reflectance coating in the present invention；

Fig. 7 is the structural representation of reflection subassembly in the present invention；

Fig. 8 is another embodiment schematic diagram of windproof assembly.

Reference：1st, lens barrel main body, 11, accommodating cavity, 12, light inlet, 13, light-emitting window, 14th, it is open, 2, transfer lens, 31, reflection film roll cylinder, 32, damaged reflection film roll cylinder, 33rd, handwheel, 34, belt, 35, reflectance coating, 36, high tenacity film, 4th, reflecting plate, 5, flange, 6, collection play groove, 7, window glass, 8th, windproof assembly, 81, ring body, 82, circular air inlet mouth, 83, round wind outlet, 84th, air channel, 85, air inlet, 86, air outlet.

Specific embodiment

Embodiments of the invention are described further referring to figs. 1 to Fig. 8, in the present invention indication " on ", D score, the orientation descriptor such as "left", "right" be intended merely to the convenient specific descriptions mode taken description of the drawings, the orientation being not limited on practical significance.

A kind of shellproof vandal-proof monitoring camera, including internal is hollow lens barrel main body 1, the front end of lens barrel main body 1 is light inlet 12, and the side wall of lens barrel main body 1 is provided with a light-emitting window 13；The inside of lens barrel main body 1 is provided with reflection subassembly, after the reflected component reflection of the light entered from light inlet 12, projects from light-emitting window 13.In one embodiment, the reflection subassembly includes reflection film roll cylinder 31, reflection film roll cylinder 32 has been damaged and has been driven and damaged the drive mechanism that reflection film roll cylinder 32 is rotated；The reflectance coating 35 for reflection light is wound with reflection film roll cylinder 31, its free end is fixed on and damage in reflection film roll cylinder 32 in the present embodiment, and the reflectance coating 35 can be a kind of metal forming, for reflecting infrared light, such as aluminium foil etc., that supervising device can also be thermal imaging system；Can also be mirror film, for reflecting visible ray, that supervising device can also be video camera.

By above scheme, just the light inlet of supervising device can be correspondingly arranged with the light-emitting window 13 of lens barrel main body 1, the reflected component of the propagation path of light is carried out after primary event because shellproof vandal-proof monitoring camera provided by the present invention is realized, enter back on the imageing sensor inside supervising device, smash so as to avoid Primary Component of the bullet along the incident direction of light directly from inside by supervising device." being correspondingly arranged " mentioned above, it is that the front end flange 5 of supervising device is directly docked at the light-emitting window of lens barrel main body 1, again in one layer of shellproof shell of supervising device outer cladding, certainly, in order to reach the aesthetic property of integration, shellproof shell can be formed integrally with the wall body of lens barrel main body 1, now supervising device equivalent is then situated on inside lens barrel main body 1, specifically refers to Fig. 2.In fig. 2, the shellproof shell being coated on outside supervising device, it is raised forward, in hemispherical or be similar to hemispherical, can so reduce the sail angle of the bullet injected from below.

What deserves to be explained is, for the putting position of lens barrel main body 1 and supervising device can have two kinds of forms, wherein, one kind is vertically to place, will lens barrel main body 1 be arranged on the top of supervising device, the light-emitting window 13 of now above-mentioned lens barrel main body 1 is then arranged on the underface of lens barrel main body 1；Another is horizontal positioned, will lens barrel main body 1 and supervising device be placed on same level position, now, the light-emitting window of lens barrel main body 1 is arranged on the left/right side wall of lens barrel main body 1.

In addition, entered after lens barrel main body 1 with certain angle of inclination to prevent bullet, it is emitted directly toward the light-emitting window 13 of lens barrel main body 1, in the present embodiment, with reference to Fig. 2, the reflection angle of reflection subassembly is correspondingly adjusted, the side that light-emitting window 13 is arranged on bullet is partial to light inlet 12 from light inlet 12 with sail angle away from the motion path that the side of light-emitting window 13 is injected.

With reference to Fig. 2, further, in order to prevent bullet from projecting from light-emitting window 13 after arbitrarily rebounding in lens barrel main body 1, it is in be bent downwardly or inclined version that lens barrel main body 1 can be set to overall, so that the inwall of lens barrel main body 1 is formed being bent downwardly or inclined spigot surface, so, during bullet with certain angle of inclination after being injected in lens barrel main body 1, rebounded by the inwall of lens barrel main body 1, the direction of bounce-back is also the overall end towards lens barrel main body 1, can't rebound to the front end of lens barrel main body 1 again, after bullet stops rebounding, as the reason for gravity, it is slipped to the end of lens barrel main body 1, so as to avoid bullet from projecting from light-emitting window 13.In addition, collecting bullet for convenience, the end of lens barrel main body 1 is provided with collection and plays groove 6, from fig. 2 it can be seen that be provided with collection playing after groove 6, bullet plays groove 6 once entering collection, be just difficult to spring back to the outside of lens barrel main body 1 again.In addition, playing be provided with openable door-plate on groove 6 in collection（Not shown in figure）.

In addition, directly smashed by the bullet injected from the light inlet 12 of lens barrel main body 1 to prevent from reflecting film roll cylinder 31 and having damaged reflection film roll cylinder 32, in one embodiment, the inwall of the lens barrel main body 1 is provided with the accommodating cavity 11 placed reflection film roll cylinder 31 and damaged reflection film roll cylinder 32, is specifically referred to Fig. 2（Other accompanying drawings are omitted and represented）, the accommodating cavity 11 is with the opening 14 passed through for reflectance coating 35（Bore is less than bullet）, so, bullet just cannot be damaged to reflecting film roll cylinder 31 and having damaged reflection film roll cylinder 32.

Further, since needing to reflect the light injected from the light inlet 12 of lens barrel main body 1, then reflectance coating 35 is inevasible will be in quilt ejection.Therefore, in order to avoid reflectance coating 35 ruptures, the continuous replacing of reflectance coating 35 is affected, structure is carried out to reflectance coating 35 to correspondingly improve, specifically, the width of reflectance coating 35 is set greater than as shown in Figure 4 the left and right width of the light inlet 12 of lens barrel main body 1, or slightly larger than also may be used；Simultaneously, high toughness plastic film or high-strength membrane 36 are pasted with the both sides of reflectance coating 35, such as PE films, so, even if reflectance coating 35 is punched, or fracture, but due to the high toughness plastic film it is still intact, then when damage reflection film roll cylinder 32 rotate when, breakdown reflectance coating 35 can continue to be winding to damage reflection film roll cylinder 32 on, and reflecting the new reflectance coating 35 wound in film roll cylinder 31 can re-enter into predetermined operating position, i.e. reflection position.

With reference to Fig. 6, the drive mechanism includes handwheel 33 and belt 34；The diapire of lens barrel main body 1 is provided with the opening 14 passed through for belt 34, and the particular location of the opening 14 is determined by lens barrel main body 1 with the relative position of supervising device, i.e., horizontal or vertical；Handwheel 33 is located at outside lens barrel main body 1, and is connected with reflection film roll cylinder 32 is damaged by belt 34.Install for convenience, lens barrel main body 1 can be split-type structural, you can be combined by some, be detachably connected between some, and concrete structure is no longer stated in the accompanying drawings, skilled artisan would appreciate that.Therefore, by above scheme, just can be driven by handwheel 33 damage reflection film roll cylinder 32 to rotate, so as to realize the replacing of new reflectance coating 35.When actually used, handwheel 33 can be arranged on the inside of carrier, such as then panzer, tank, naval vessels etc. are completed operation by the operating personnel of carrier inside.

For another embodiment of drive mechanism, specifically, drive mechanism includes stepper motor and controller, wherein, stepper motor is fixedly connected with the rotating shaft for damaging reflection film roll cylinder 32, controller can be arranged on the inside of carrier, and the operating personnel in carrier can be rotated by controller remotely control motor, damage reflection film roll cylinder 32 to rotate so as to drive.In addition, the automatic rotation in order to realize motor, can be to install corresponding sensor in lens barrel main body 1, such as light sensor.The light sensor is blocked by reflectance coating 35, once reflectance coating 35 is breakdown, light is shone on light sensor through reflectance coating 35, produces corresponding light-sensing signal, will be transmitted to controller, and now controller controls again stepper motor rotation.

Because the light inlet 12 of lens barrel main body 1 typically can all have a window glass 7, so in order to prevent window glass 7 from being made dirty by dust when carrier is quickly moved, the present invention is also provided with windproof assembly 8 in the front end of lens barrel main body 1, windproof assembly 8 includes being fixed on the component body of the front end of lens barrel main body 1, and the front end of component body is provided with air inlet 85 and air outlet 86；Air inlet 85 is more than air outlet 86；The air channel 84 of air inlet 85 and air outlet 86 is communicated with inside component body, the interior air inlet without leave 85 in air channel 84 is gradually reduced to air outlet 86；Air outlet 86 to the axis of the light inlet 12 of lens barrel main body 1 inclines.By arrangement above, in carrier high-speed mobile, the air-flow of high speed is entered in air channel 84 from air inlet 85, because the width in air channel 84 is tapered into, so air-flow understands speed meeting more and more higher, and flows to air outlet 86, because air velocity now is more than extraneous air velocity, air-flow so in air channel 84 can be sprayed from air outlet 86 with higher speed, stop debris.

On the basis of Fig. 2, a kind of embodiment for windproof assembly 8 is shown, concrete structure is with reference to Fig. 3.

On the basis of Fig. 4 and Fig. 5, show the another embodiment of windproof assembly, concrete structure can refer to such as Fig. 8, the windproof assembly specifically includes being set in the ring body 81 of the front end of lens barrel main body 1, the front end of the ring body 81 is provided with circular air inlet mouth 82 and round wind outlet 83, round wind outlet 83 to the centroclinal of light inlet, and circular air inlet mouth 82 with diameter greater than round wind outlet 83；In addition, circular air inlet mouth 82 is interconnected to form air channel 84 with round wind outlet 83 in ring body 81, the width in the air channel 84 is tapered into from circular air inlet mouth 82 to round wind outlet 83；By arrangement above, in carrier high-speed mobile, the air-flow of high speed is entered in air channel 84 from circular air inlet mouth 82, because the width in air channel 84 is tapered into, so air-flow understands speed meeting more and more higher, and flow to round wind outlet 83, because air velocity now is more than extraneous air velocity, air-flow so in air channel 84 can be sprayed from round wind outlet 83 with higher speed, after carrying out convection current and being cancelled a part with extraneous air-flow, form the static region of a cone as depicted, some dust and other impurities so in external air flow, the static region will be got around, will not fall directly on window glass 7, so as to ensure that the cleaning on the surface of window glass 7.

It should be noted that, the structure shown in lens barrel main body 1 in Fig. 4, Fig. 5, it is for convenience to the signal of transfer lens 2, and a kind of general type for adopting, do not meet the condition of the lens barrel main body 1 shown in Fig. 2, can not think that the structure shown in Fig. 4, Fig. 5 there is essentially from the lens barrel main body 1 in Fig. 2 different.

In addition, in order to prevent when the translational speed of carrier is not high, the air-flow for being formed is too weak, and one supercharging device of the configuration that can also be added, the supercharging device can be gas pump or fan etc., be connected by tracheae air channel 84.

In addition, the mounting distance in order to increase camera lens, can be to install a transfer lens 2 on camera lens, the transfer lens 2 also include switching lens barrel, and it is in hollow setting that it is internal, and front end has light inlet, and rear end has light-emitting window；The light inlet of the switching lens barrel is correspondingly arranged with the light-emitting window 13 of lens barrel main body 1, so that the light projected from the light-emitting window 13 of lens barrel main body 1 enters the light inlet of switching lens barrel.The specific corresponding to mode of switching lens barrel and lens barrel main body 1 can be by the contactless fit system such as light path, or the connected mode for passing through contact, such as with threaded connection or with connection of flange 5 etc., can unrestricted choice in actually manufacture.Can, using a kind of linear structure as shown in Figure 4, any reflecting mechanism is not installed inside it for the concrete structure of transfer lens 2, a protection is simply played a part of to the propagation of light；Can also, using a kind of structure of bending type as shown in Figure 5, reflecting mechanism is installed in its internal bending place（Shown in figure is one piece of reflecting plate 4）So that light is again through primary event；In addition, the concrete structure of transfer lens 2 can be with more, and light is also not construed as limiting in its internal order of reflection, it is necessary to if, transfer lens 2 can also be made with bullet resistant material.To sum up, the main purpose of transfer lens 2 is then to protect the propagation of light, it is to avoid interference, and increases the mounting distance of lens barrel main body 1.

The above is only the preferred embodiment of the present invention, and protection scope of the present invention is not limited merely to above-described embodiment, and all technical schemes belonged under thinking of the present invention belong to protection scope of the present invention.It should be pointed out that for those skilled in the art, some improvements and modifications without departing from the principles of the present invention, these improvements and modifications also should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of shellproof vandal-proof monitoring camera, including the lens barrel main body by made by bullet resistant material, the front end of lens barrel main body is light inlet, it is characterised in that the side wall of the lens barrel main body is provided with a light-emitting window；The inside of the lens barrel main body is provided with reflection subassembly, after the light entered from light inlet reflection subassembly reflection described in, projects from the light-emitting window.

2. shellproof vandal-proof monitoring camera as claimed in claim 1, it is characterised in that the reflection subassembly includes reflection film roll cylinder, damaged reflection film roll cylinder and driving has damaged the drive mechanism of reflectance coating spool turns；The reflectance coating for reflection light is wound with the reflection film roll cylinder, its free end is fixed on and damage in reflection film roll cylinder.

3. shellproof vandal-proof monitoring camera as claimed in claim 2, it is characterised in that the inwall of the lens barrel main body is provided with the accommodating cavity placed reflection film roll cylinder and damaged reflection film roll cylinder, and the accommodating cavity is with the opening passed through for reflectance coating.

4. shellproof vandal-proof monitoring camera as claimed in claim 1, it is characterised in that the side that the light-emitting window is located at bullet is partial to light inlet from light inlet with sail angle away from the motion path that the side of light-emitting window is injected.

5. the shellproof vandal-proof monitoring camera as described in claim 1 or 4, it is characterised in that the lens barrel main body is integrally in being bent downwardly or be obliquely installed.

6. shellproof vandal-proof monitoring camera as claimed in claim 2, it is characterised in that width of the width of the reflectance coating more than or equal to the light inlet of lens barrel main body；The both sides of reflectance coating are pasted with high toughness plastic film or high-strength membrane.

7. shellproof vandal-proof monitoring camera as claimed in claim 2, it is characterised in that the drive mechanism includes handwheel and belt；The diapire of the lens barrel main body is provided with the opening passed through for belt；The handwheel is located at lens barrel body exterior, and is connected with reflection film roll cylinder by belt.

8. shellproof vandal-proof monitoring camera as claimed in claim 1, it is characterised in that the front end of the lens barrel main body is provided with a windproof assembly；The windproof assembly includes being fixed on the component body of lens barrel body front end, and the front end of the component body is provided with least one air inlet and at least one air outlet；The air inlet is more than air outlet；The air channel of air inlet and air outlet is communicated with inside the component body, the interior air inlet without leave in the air channel is gradually reduced to air outlet；The air outlet to the axis of the light inlet of lens barrel main body inclines.

9. shellproof vandal-proof monitoring camera as claimed in claim 1, it is characterised in that also including switching lens barrel, it is in hollow setting that it is internal, and front end has light inlet, and rear end has light-emitting window；The light inlet of the switching lens barrel is correspondingly arranged with the light-emitting window of lens barrel main body, so that the light projected from the light-emitting window of lens barrel main body enters the light inlet of switching lens barrel.

10. a kind of supervising device, including device body, it is characterised in that also including shellproof vandal-proof monitoring camera as claimed in claim 1, the light inlet of described device body is corresponding with the light-emitting window of shellproof vandal-proof monitoring camera.