CN203537486U - Camera - Google Patents

Abstract

The utility model relates to the technical field of camera devices, and discloses a camera. The camera comprises an image sensor and a cooling fin. The image sensor is installed on one side of the cooling fin. The camera further comprises a base fixedly connected with the cooling fin. The base and the image sensor are arranged on the same side of the cooling fin. A concave part for accommodating the image sensor is arranged in the side, facing the cooling fin, of the base. A light-transmitting hole arranged opposite to the image sensor and penetrating the base in the thickness direction is further arranged in the bottom part of the concave part. One side, facing the cooling fin, of the base is abutted against one side, facing the base, of the cooling fin. The camera further comprises an optical filter mounting rack for the assembly of an optical filter. The optical filter mounting rack is assembled on one side, departing from the cooling fin, of the base in a sliding manner. According to the utility model, the contact area between the cooling fin of the image sensor and the base is relatively large so as to enable the base to assist the image sensor for heat dissipation, so that the heat dissipation efficiency of the image sensor is improved.

Description

A kind of video camera

Technical field

The utility model relates to camera head technical field, particularly a kind of video camera.

Background technology

In camera head field, the application of video camera with switching device of optical fiber (Infrared Cut Removable, ICR) is more and more extensive.The video camera with ICR, can be by ICR by imageing sensor (Charge-coupled Device while making a video recording by day, CCD) front filter switches to and does not feel infrared fileter, not feeling infrared fileter only allows visible ray pass through, and the invisible light that comprises infrared light all can be filtered, and then imageing sensor obtains the pure degree of image color can promote video camera and make a video recording by day time.When video camera is made a video recording at night, by ICR, the filter before imageing sensor is switched to sense infrared fileter, sense infrared fileter can filter out some veiling glares, but can allow infrared light and visible ray pass through; When the video camera with ICR is taken at night, its imageing sensor can reflect and induce the image of black and white to the infrared light by sense infrared fileter, and then the night vision effect can improve video camera and make a video recording evening time.

In prior art, switching device of optical fiber (ICR) generally includes a base, and a slidable fit is in the filter installing rack of base one side.In thering is the video camera of switching device of optical fiber (ICR), ICR be generally loaded into imageing sensor before, imageing sensor time can produce more heat in work, therefore, the base of ICR need to assist imageing sensor to dispel the heat.

Utility model content

The utility model provides a kind of video camera, and the base of switching device of optical fiber in this video camera (ICR) can play the effect of assisting imageing sensor to dispel the heat.

For achieving the above object, the utility model provides following technical scheme:

A video camera, comprises imageing sensor and fin, and described imageing sensor is installed on a side of described fin, also comprises:

The base being fixedly connected with described fin, described base and imageing sensor are positioned at the same side of described fin, and described base has towards a side of described fin the depressed part that holds described imageing sensor, the loophole that the bottom of described depressed part is also provided with is relative with described imageing sensor, run through described base thickness direction, described base offsets with the one side of described fin towards described base towards the one side of described fin;

Be equipped with the filter installing rack of at least two filters, described filter installing rack slidable fit deviates from a side of described fin in described base.

In the video camera that the utility model provides, filter installing rack is arranged at the side that base deviates from fin, and base is only provided with towards a side of fin the depressed part that holds imageing sensor, therefore, after fin and switching device of optical fiber (ICR) are assembled, base is in the one side of fin, except for holding outside the area of depressed part opening part of imageing sensor, the side surface that all the other areas in this face are all provided with imageing sensor with fin contacts, thereby increased the heat exchange area between base and fin, make the base of ICR to assist better fin to dispel the heat, and then improved the radiating efficiency of fin epigraph transducer, guaranteed the product quality of video camera.

Preferably, the chute being slidably matched by least one pair of between described filter installing rack and described base and slide rail slidable fit; Wherein, also comprise:

Be installed on described base, the driving mechanism to drive described filter installing rack to slide along the bearing of trend of described chute.

Between filter installing rack and base, by chute and slide rail, realize slidable fit, too much part need to be set on base, make the structure of whole ICR more simple.And, when carrying out filter switching, only need to open driving mechanism, driving mechanism just can drive filter installing rack to move along the bearing of trend of chute, until by the filter that needs on filter installing rack to use move to loophole over against position, make the handoff procedure of filter more simple.

Preferably, described chute is arranged at described base towards a side of described filter installing rack, and described slide rail comprises and is arranged at described filter installing rack towards described base one side and the protruding bar shaped projection to described base.

Because the bar shaped projection on filter installing rack and the chute on base are slidably matched, when driving mechanism drives filter installing rack to move with respect to base, chute and bar shaped projection cooperatively interact and can lead with spacing to the moving direction of filter installing rack, make the moving process of filter installing rack more steady.

Preferably, described driving mechanism comprises:

Be installed on the stepping motor of described base;

With the co-axially fixed threaded rod of output shaft of described stepping motor, the bearing of trend of described threaded rod is parallel with the bearing of trend of described chute;

The guide post be arrangeding in parallel with described threaded rod;

With the guide pad of described threaded rod threaded engagement, described guide pad has the pilot hole being slidably matched with described guide post, and described guide pad and described filter installing rack are in transmission connection.

The running precision of stepping motor is higher, and the rotation process of threaded rod is also comparatively steady, stepping motor coordinates driving guide pad to move with threaded rod, guaranteed the stability of guide pad moving process, also make the translational speed of guide pad even, further improved the stability of filter installing rack sliding process.

Preferably, described filter installing rack has a connecting plate near a side of described guide pad, on described connecting plate, be provided with an opening towards the vertical U-shaped groove of the bearing of trend with described threaded rod, described connecting plate is pegged graft by the described U-shaped groove and the described guide pad that arrange on it.

Due to the moving direction of guide pad and the bearing of trend of threaded rod parallel, and the opening of U-shaped groove is towards vertical with the bearing of trend of threaded rod, therefore, at guide pad, insert after U-shaped groove, guide pad drives connecting plate to move together with filter installing rack, to realize driving mechanism, drives filter installing rack along the object of the bearing of trend slip of chute.

Preferably, described filter installing rack is fixedly connected with described guide pad, has improved bonding strength and the stability of guide pad and filter installing rack.

Preferably, described chute comprises and is arranged at described base and is positioned at described loophole away from the stopper slot of described threaded rod one side, and the slide rail being slidably matched with described stopper slot comprises and is arranged at described filter installing rack away from described threaded rod banking stop on one side.

Stopper slot is narrow slit shape structure, banking stop is inserted in stopper slot slidably, can away from one side of threaded rod, carry out spacing to filter installing rack, prevent that filter installing rack from shaking in filter installing rack sliding process away from one side of threaded rod, improved the stability of filter installing rack sliding process.

Preferably, described banking stop comprises the first banking stop and the second banking stop; Described stopper slot comprises the first stopper slot being slidably matched with described the first banking stop, and the second stopper slot being slidably matched with described the second banking stop;

When described filter installing rack slides into primary importance, a filter on it and described loophole over against, one end of described the first banking stop and described the first stopper slot offsets, one end of described the second banking stop and described the second stopper slot offsets;

When described filter is installed while sliding into the second place, another filter on it and described loophole over against, the other end of described the first banking stop and described the first stopper slot offsets, and the other end of described the second banking stop and described the second stopper slot offsets.

Preferably, described fin is fixedly connected with described base by trip bolt.Thereby make more tight towards the one side of fin and fin laminating of base, to facilitate, between base and fin, carry out heat and conduct, make base assist better fin to dispel the heat, thereby further improve the radiating efficiency of imageing sensor.

Preferably, also comprise:

Fore shell, is fixed on the side that described base deviates from described imageing sensor, and has the shooting mouth relative with described loophole position.With protection filter installing rack and imageing sensor, prevent from falling ash on filter and imageing sensor and affect result of use.

Accompanying drawing explanation

The Facad structure schematic diagram of fore shell, switching device of optical fiber and fin assembly relation in the video camera that Fig. 1 provides for the utility model embodiment;

The structure schematic diagram of fore shell, switching device of optical fiber and fin assembly relation in the video camera that Fig. 2 provides for the utility model embodiment;

Structural representation when filter installing rack is positioned at base primary importance in the video camera that Fig. 3 provides for the utility model embodiment;

Fig. 4 be in Fig. 3 P-P to cross-sectional schematic;

Structural representation when filter installing rack is positioned at the base second place in the video camera that Fig. 5 provides for the utility model embodiment.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

Statement, all being take in orientation shown in Fig. 3 on " left side " mentioned in the utility model, " right side " etc. is example, it is convenient that its effect is only used to describe, and there is no and refer in particular to implication.

Please refer to Fig. 1 and Fig. 2, the video camera that the utility model provides, comprises imageing sensor 1 and fin 2, and imageing sensor 1 is installed on a side of fin 2, also comprises:

The base 3 being fixedly connected with fin 2, base 3 and imageing sensor 1 are all positioned at the same side of fin 2, and base 3 has towards a side of fin 2 depressed part 31 that holds imageing sensor 1, the loophole 32 that the bottom of depressed part 31 is also provided with is relative with imageing sensor 1, run through base 3 thickness directions, base 3 offsets with the one side of fin 2 towards base 3 towards the one side of fin 2;

Be equipped with the filter installing rack 4 of at least two filters, filter installing rack 4 slidable fit deviate from a side of fin 2 in base 3.

In the video camera that the utility model provides, filter installing rack 4 is arranged at the side that base 3 deviates from fin 2, and base 3 is only provided with towards a side of fin 2 depressed part 31 that holds imageing sensor 1, therefore, after fin 2 and switching device of optical fiber (ICR) are assembled, base 3 is in the one side of fin 2, except for holding outside the area of depressed part opening part of imageing sensor 1, the side surface that all the other areas in this face are all provided with imageing sensor 1 with fin 2 contacts, lower than 10%, compare with base 3 contacts area with fin in prior art 2, in the video camera that the utility model provides, base 3 can reach fin 2 towards the more than 65% of 3 one gross areas of base with the contact area of fin 2, thereby increased the heat exchange area between base 3 and fin 2, and base 3 contacts with fin 2, improved at least 50% thermal capacity, make the base 3 of ICR can assist better fin 2 to dispel the heat, and then improved the radiating efficiency of fin 2 epigraph transducers 1, guaranteed the product quality of video camera.

Please refer to Fig. 3, the chute 5 being slidably matched by least one pair of between filter installing rack 4 and base 3 and slide rail 6 slidable fit; Wherein, also comprise:

Be installed on base 3, the driving mechanism 7 to drive filter installing rack 4 to slide along the bearing of trend of chute 5.

In the video camera that the utility model provides, between filter installing rack 4 and base 3, by chute 5 and slide rail 6, realize slidable fit, therefore need to too much part be set on base 3, make the structure of whole ICR more simple.

And, when carrying out filter switching, only need to open driving mechanism 7, driving mechanism 7 just can drive filter installing rack 4 to move along the bearing of trend of chute 5, until by the filter that needs on filter installing rack 4 to use move to loophole 32 over against position, thereby complete the handoff procedure of filter, make the handoff procedure of filter in video camera that the utility model provides also more simple.

Please refer to Fig. 3 and Fig. 4, particularly, chute 5 is arranged at base 3 towards a side of filter installing rack 4, and slide rail 6 comprises and is arranged at filter installing rack 4 towards a side and the protruding bar shaped projection 41 to base 3 of base 3.

After driving mechanism 7 operations, driving mechanism 7 drives filter installing rack 4 to move with respect to base 3, because the bar shaped projection 41 on filter installing rack 4 and the chute 5 on base 3 are slidably matched, therefore, when filter installing rack 4 moves, chute 5 and bar shaped projection 41 cooperatively interact and can lead with spacing to the moving direction of filter installing rack 4, make the moving process of filter installing rack 4 more steady.

In addition, bar shaped projection 41 can be a whole piece projection that is arranged at filter installing rack 4, can be also spaced many projections that are positioned at same straight line.

Please continue to refer to Fig. 3 and Fig. 4, more specifically, above-mentioned driving mechanism 7 comprises:

Be installed on the stepping motor 71 of base 3;

With the co-axially fixed threaded rod 72 of output shaft of stepping motor 71, the bearing of trend of threaded rod 72 is parallel with the bearing of trend of chute 5;

The guide post 73 be arrangeding in parallel with threaded rod 72;

With the guide pad 74 of threaded rod 72 threaded engagement, guide pad 74 has the pilot hole being slidably matched with guide post 73, and guide pad 74 is in transmission connection with filter installing rack 4.

After stepping motor 71 starts, the output shaft of stepping motor 71 drives threaded rod 72 to rotate, threaded rod 72 drives guide pad 74 on it to move along the bearing of trend of threaded rod 72 when rotating, because the bearing of trend of threaded rod 72 is parallel with the bearing of trend of chute 5, therefore, when moving, guide pad 74 just can drive the filter installing rack 4 being in transmission connection with it to move along the direction that is parallel to threaded rod 72, , drive filter installing rack 4 to slide along the bearing of trend of chute 5, until by the filter that needs on filter installing rack 4 to use move to base 3 on loophole 32 over against position, thereby complete the handoff procedure of filter.

Wherein, the two ends of guide post 73 can be fixedly connected with respectively a support, and the mode such as two supports are bolted with base 3 respectively, welding or clamping is fixedly connected with, thereby makes guide post 73 relative with base 3 fixing.Threaded rod 72 also can be articulated between two supports at guide post 73 two ends, and threaded rod 72 is assemblied on base 3 rotationally, to facilitate stepping motor 71 can drive threaded rod 72 to rotate.

In addition, the running precision of stepping motor 71 is higher, and the rotation process of threaded rod 72 is also comparatively steady, stepping motor 71 coordinates driving guide pad 74 to move with threaded rod 72, can improve the stability of guide pad 74 moving process, and guaranteed the even of guide pad 74 translational speeds, further improved the stability of filter installing rack 4 sliding processes.

In addition, the driving mechanism that the utility model provides is not limited to above-mentioned concrete frame mode, can also adopt other version, as long as it can drive filter that 4 movements are installed.For example: another driving mechanism can comprise:

The slideway parallel with filter installing rack 4 glide directions, one end of slideway is fixed with stepping motor 71, and the output shaft of stepping motor 71 is coaxially fixed a threaded rod 72 being articulated in slideway; A slide block with threaded rod 72 threaded engagement is also set in slideway, and this slide block is fixedly connected with filter installing rack 4.

Like this, stepping motor 71 can drive slide block to move along the moving direction of threaded rod 72 by threaded rod 72 equally, to drive filter installing rack 4 to slide.

More specifically, stepping motor 71 is fixedly installed on base 3 by trip bolt.The intensity that screw connects is higher, and the mode being connected by screw is fixedly mounted on stepping motor 71 on base 3, can guarantee that stepping motor 71 is installed on the security and stability after base 3; And the disassembly process of trip bolt is comparatively simple, make the process of stepping motor 71 installation or removal also become comparatively simple.

In order to realize being in transmission connection of filter installing rack 4 and guide pad 74, between filter installing rack 4 and guide pad 74, can adopt following two kinds of connected modes:

Mode one, please refer to Fig. 3, above-mentioned filter installing rack 4 has a connecting plate 42 near a side of guide pad 74, on connecting plate 42, be provided with an opening towards the vertical U-shaped groove 421 of the bearing of trend with threaded rod 72, connecting plate 42 is by its upper U-shaped groove arranging 421 and guide pad 74 grafting, to realize being connected of filter installing rack 4 and guide pad 74.

Because the moving direction of guide pad 74 is parallel with the bearing of trend of threaded rod 72, and the opening of U-shaped groove 421 is towards vertical with the bearing of trend of threaded rod 72, therefore, at guide pad 74, insert after U-shaped groove 421, no matter guide pad 74 to which direction moves, guide pad 74 all can drive connecting plate 42 to move together with filter installing rack 4, to realize driving mechanism 7, drives filter installing rack 4 along the object of the bearing of trend slip of chute 5.

And, connecting plate 42 is pegged graft with guide pad 74 by the U-shaped groove 421 arranging on it, when assembling, the U-shaped groove 421 that only guide pad 74 need to be inserted to connecting plate 42 can complete the assembling process of driving mechanism 7 and filter installing rack 4, therefore, assembling process is comparatively simple, can improve the installation effectiveness of filter installing rack 4.

In addition, in order to facilitate the processing and fabricating of bar shaped projection 41, bar shaped projection 41 can also be arranged on to connecting plate 42 towards a side of base 3.

Mode two, filter installing rack 4 is fixedly connected with guide pad 74.Filter installing rack 4 can be fixed and be connected with guide pad by modes such as welding, riveted joint or screw connections.Generally, the strength and stability being fixedly connected with is all higher, thereby can guarantee the product quality of video camera.

Please refer to Fig. 3, in the chute 5 and slide rail 6 being slidably matched between filter installing rack 4 and base 3, chute 5 also comprises and is arranged at base 3 and is positioned at loophole 32 away from the stopper slot 33 of threaded rod one side, and the slide rail 6 being slidably matched with stopper slot 33 comprises and is arranged at filter installing rack 4 away from threaded rod 72 banking stop 43 on one side.

Stopper slot 33 can be set to narrow slit shape structure, banking stop 43 is inserted in stopper slot 33 slidably, can away from one side of threaded rod 72, carry out spacing to filter installing rack 4, prevent that filter installing rack 4 from shaking in filter installing rack 4 sliding processes away from one side of threaded rod 72, improved the stability of filter installing rack 4 sliding processes.

Please refer to Fig. 3 and Fig. 5, more specifically, above-mentioned banking stop 43 comprises the first banking stop 431 and the second banking stop 432; Stopper slot 33 comprises the first stopper slot 331 being slidably matched with the first banking stop 431, and the second stopper slot 332 being slidably matched with the second banking stop 432;

As shown in Figure 3, when filter installing rack 4 slides into primary importance, in filter installing rack 4, be positioned at left side filter and loophole 32 over against, now, the right-hand member of the first banking stop 431 and the first stopper slot 331 offsets, and the second banking stop 432 also offsets with the right-hand member of the second stopper slot 332;

As shown in Figure 5, when filter installing rack 4 slides into the second place, in filter installing rack 4, be positioned at the filter on right side and loophole 32 over against, now, the left end of the first banking stop 431 and the first stopper slot 331 offsets, and the second banking stop 432 also offsets with the left end of the second stopper slot 332.

Like this, the filter using at needs and loophole 32 are over against rear, one end of the first banking stop 431 and the first stopper slot 331 offsets, the second banking stop 432 also offsets with one end of the second stopper slot 332, force filter installing rack 3 to stop mobile, guaranteed the switching precision of filter installing rack 3, also can prevent that filter installing rack 3 from moving out base 3 and breaking down simultaneously.

Please refer to Fig. 2, the edge of fin 2 is provided with relative screw with base 3 edges, and fin 2 is fixedly connected with base 3 by trip bolt.Thereby what make base 3 other region except depressed part 31 can be with fin 2 laminating in the one side of fin 2 is more tight, to facilitate, between base 3 and fin 2, carry out heat conduction, make base 3 can assist better fin 2 to dispel the heat, thereby further improve the radiating efficiency of imageing sensor 1.

Please refer to Fig. 1 and Fig. 2, the video camera that the utility model provides also comprises:

Fore shell 8, is fixed on the side that base 3 deviates from imageing sensor 1, and has the shooting mouth 81 relative with loophole 32 positions on base 3.Fore shell 8 can be protected filter and imageing sensor 1, prevents from falling ash on filter and imageing sensor 1 and affects result of use.

Obviously, those skilled in the art can carry out various changes and modification and not depart from spirit and scope of the present utility model the utility model embodiment.Like this, if within of the present utility model these are revised and modification belongs to the scope of the utility model claim and equivalent technologies thereof, the utility model is also intended to comprise these changes and modification interior.

Claims (10)

1. a video camera, comprises imageing sensor and fin, and described imageing sensor is installed on a side of described fin, it is characterized in that, also comprises:

The base being fixedly connected with described fin, described base and imageing sensor are all positioned at the same side of described fin, and described base has towards a side of described fin the depressed part that holds described imageing sensor, the loophole that the bottom of described depressed part is also provided with is relative with described imageing sensor, run through described base thickness direction, described base offsets with the one side of described fin towards described base towards the one side of described fin;

The filter installing rack of assembling filter, described filter installing rack slidable fit deviates from a side of described fin in described base.

2. video camera according to claim 1, is characterized in that, the chute being slidably matched by least one pair of between described filter installing rack and described base and slide rail slidable fit; Wherein, also comprise:

Be installed on described base, the driving mechanism to drive described filter installing rack to slide along the bearing of trend of described chute.

3. video camera according to claim 2, it is characterized in that, described chute is arranged at described base towards a side of described filter installing rack, and described slide rail comprises and is arranged at described filter installing rack towards described base one side and the protruding bar shaped projection to described base.

4. video camera according to claim 3, is characterized in that, described driving mechanism comprises:

Be installed on the stepping motor of described base;

With the co-axially fixed threaded rod of output shaft of described stepping motor, the bearing of trend of described threaded rod is parallel with the bearing of trend of described chute;

The guide post be arrangeding in parallel with described threaded rod;

With the guide pad of described threaded rod threaded engagement, described guide pad has the pilot hole being slidably matched with described guide post, and described guide pad and described filter installing rack are in transmission connection.

5. video camera according to claim 4, is characterized in that, described filter installing rack is fixedly connected with described guide pad.

6. video camera according to claim 4, it is characterized in that, described filter installing rack has a connecting plate near a side of described guide pad, on described connecting plate, be provided with an opening towards the vertical U-shaped groove of the bearing of trend with described threaded rod, described connecting plate is pegged graft by the described U-shaped groove and the described guide pad that arrange on it.

7. video camera according to claim 6, it is characterized in that, described chute comprises and is arranged at described base and is positioned at described loophole away from the stopper slot of described threaded rod one side, and the slide rail being slidably matched with described stopper slot comprises and is arranged at described filter installing rack away from described threaded rod banking stop on one side.

8. video camera according to claim 7, is characterized in that, described banking stop comprises the first banking stop and the second banking stop; Described stopper slot comprises the first stopper slot being slidably matched with described the first banking stop, and the second stopper slot being slidably matched with described the second banking stop;

When described filter installing rack slides into primary importance, a filter on it and described loophole over against, one end of described the first banking stop and described the first stopper slot offsets, one end of described the second banking stop and described the second stopper slot offsets;

When described filter is installed while sliding into the second place, another filter on it and described loophole over against, the other end of described the first banking stop and described the first stopper slot offsets, and the other end of described the second banking stop and described the second stopper slot offsets.

9. according to the video camera described in claim 1～8 any one, it is characterized in that, described fin is fixedly connected with described base by trip bolt.

10. according to the video camera described in claim 1～8 any one, it is characterized in that, also comprise: fore shell, is fixed on the side that described base deviates from described imageing sensor, and has the shooting mouth relative with described loophole position.

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