CN115118854A - Vehicle-mounted optical anti-shake camera - Google Patents

Abstract

The invention belongs to the technical field of vehicle-mounted cameras, and particularly relates to a vehicle-mounted optical anti-shake camera which comprises a connecting shell, wherein camera shooting shells are arranged on two sides of the connecting shell, a camera is fixed in the camera shooting shell, an optical lens is arranged outside the camera, the optical lens is fixedly connected with the camera shooting shell, a supporting table is fixed at the lower end of the connecting shell, a plurality of buffer springs are fixed in the supporting table, an air inlet pipe is connected with one side of the camera shooting shell, which is far away from the connecting shell in a through mode, and one end of the air inlet pipe, which is far away from the camera shooting shell, is communicated with a high-pressure air pump through a pipeline; the camera is protected through the optical lens, the damage of the camera caused by the impact of sundries flowing in air in the process of high-speed driving is prevented, meanwhile, the buffer spring can buffer the vibration in the driving process of the automobile, the shaking condition of the camera during working is reduced, and the anti-shaking effect is achieved.

Description

Vehicle-mounted optical anti-shake camera

Technical Field

The invention belongs to the technical field of vehicle-mounted cameras, and particularly relates to a vehicle-mounted optical anti-shake camera.

Background

Vehicle-mounted cameras are mostly applied to the field of road traffic, are mainly used for patrolling the condition of road markings, and after the condition along the way is shot by driving a vehicle with the camera, the camera shooting content is subjected to post-processing, so that whether the road markings need to be maintained or not is judged, and the vehicle-mounted camera can also be applied to the field of movie and television photography for shooting records.

In the prior art, most of vehicle-mounted cameras are fixed on a vehicle roof through parts and do not have a good damping function, so that the cameras shake to a certain degree in the driving process of an automobile, and the shooting effect of the cameras is influenced; to this end, the present invention provides a vehicle-mounted optical anti-shake camera.

Disclosure of Invention

To remedy the deficiencies of the prior art, at least one of the technical problems set forth in the background is addressed.

The technical scheme adopted by the invention for solving the technical problems is as follows: the vehicle-mounted optical anti-shake camera comprises a connecting shell, wherein camera shells are arranged on two sides of the connecting shell, a camera is fixed in the camera shells, an optical lens is arranged outside the camera and is fixedly connected with the camera shells, a supporting table is fixed at the lower end of the connecting shell, and a plurality of buffer springs are fixed in the supporting table; the during operation, do the top at the vehicle with equipment fixing through a supporting bench, like this at the in-process that the vehicle traveles alright monitor all around through the camera, play the snapshot that tests the speed, make a video recording etc. simultaneously, optical lens's design can effectually protect the camera, the debris striking that flows in the in-process air that prevents to travel at a high speed leads to the condition of camera damage to appear, buffer spring's design can cushion the vibrations of car travel in-process simultaneously, thereby reduce the camera and at the condition of during operation shake, reach the effect of anti-shake.

Preferably, an air inlet pipe is connected to one side, away from the connecting shell, of the camera shell in a through manner, one end, away from the camera shell, of the air inlet pipe is communicated with a high-pressure air pump through a pipeline, an empty groove is formed in the camera shell and is positioned at the output end of the air inlet pipe, a transmission plug is connected to the inside of the empty groove and is positioned below the air inlet pipe in a sliding manner, a transmission rod is fixed to the lower end of the transmission plug, a cleaning scraper is fixed to one end, away from the transmission plug, of the transmission rod, the cleaning scraper is connected with the camera shell in a sliding manner, a return spring is fixed to the lower end of the cleaning scraper, a sponge pad is fixed to one side, close to the center of the camera shell, of the cleaning scraper, and the side, close to the center of the camera shell, of the sponge pad and the outer surface of the optical lens are on the same plane; the during operation, at the in-process that traveles at a high speed, in case accompany the driver discovery picture of making a video recording appear vaguely, and be when the reason that the surface of optical lens is sheltered from by the dust leads to, accompany the driver and can remind the main driver to open the switch of high compression pump, thereby high pressure draught pours into the air intake pipe into through the pipeline, after that, it pours into the dead slot of making a video recording the casing inside into to cross the air intake pipe, at this moment, high pressure draught can promote the transmission stopper and slide, thereby the transmission stopper slides and drive the transfer line motion, and then slide behind the clean scraper blade compression reset spring of promotion, and it can drive the foam-rubber cushion and scrape optical lens's surface at the gliding in-process of clean scraper blade, thereby reached and can carry out clear effect to the camera device surface at the in-process automation that traveles at a high speed.

Preferably, a liquid storage box is fixed above the camera shell, a liquid discharge hole is formed in the camera shell and below the liquid storage box, one side, far away from the liquid storage box, of the liquid discharge hole is connected with a transition cavity in a through mode, a liquid discharge pipe is connected below the transition cavity in a through mode, and an electromagnetic switch valve is fixed inside the liquid discharge pipe; the during operation, the cleaning solution accessible outage of stock solution box inside storage injects into the transition intracavity under initial condition, is intercepted by the electromagnetic switch valve afterwards, is opened the back at high compression pump, and the electromagnetic switch valve also can be opened simultaneously to the inside cleaning solution of transition intracavity just can discharge, thereby the clean effect to the optical lens surface of thereby further improvement that the discharged cleaning solution can drip at the surface of optical lens.

Preferably, a pressurizing hole is formed in the camera shell and positioned at the lower end of the liquid discharge pipe, air pressure holes are formed in the camera shell and positioned on two sides of the pressurizing hole, and the air pressure holes are communicated with the empty groove; the during operation, at the cleaning solution through electromagnetic switch valve exhaust in-process, it can drip to the pressurization downthehole, cleaning solution this moment has an effect with higher speed, when the transmission stopper slides to atmospheric pressure hole lower extreme, partial high-pressure airflow in the dead slot can pour into the pressurization downthehole through the atmospheric pressure hole into, mix the downthehole cleaning solution of pressurization together discharge afterwards, high-pressure airflow can be broken clean liquid and is formed the surface that the water is vaporific to blow and fall at optical lens, thereby further improvement to optical lens surface's clean effect.

Preferably, a dust plug is fixed above the cleaning scraper and is matched with the pressurizing hole; the during operation, after clean the completion, high compression pump shut down to reset spring promotes clean scraper blade and resets, thereby clean scraper blade resets and drives dustproof stopper and pressurization hole contact, thereby with the pressurization hole shutoff, thereby the effectual outside dust that prevents enters into the inside corrosion that causes of pressurization hole.

Preferably, a hollow floating ball is arranged in the transition cavity, a sealing plug is fixed at the top end of the hollow floating ball through a connecting rod and is matched with the liquid drainage hole, a plurality of limiting rods are connected to the outside of the sealing plug in a sliding manner, and the limiting rods are fixedly connected with the camera shell; the during operation, when the inside cleaning solution of stock solution box pours into the transition chamber into through the outage when inside, along with the rising of transition chamber inside liquid level, hollow floating ball can come up under the effect of buoyancy to promote the sealing plug to slide and seal the outage, like this when the inside solution of transition chamber accumulates that hollow floating ball is enough to the floating degree hollow floating ball just can promote the sealing plug and seal the outage, thereby reached the effect that the cleaning solution was sprayed to the ration.

Preferably, a plurality of expansion strips are fixed between the hollow floating ball and the electromagnetic switch valve, and the expansion strips can be reused; the during operation, the inflation strip is absorbing its inflation that can produce the certain degree behind the liquid, and then supports hollow floating ball and closing plug, at the in-process of row's clean liquid like this, because the supporting effect of inflation strip, the closing plug can not the very first time and outage separation to there is sufficient time to discharge the inside cleaning solution in transition chamber.

Preferably, a shading plate is fixed at the top end of the liquid storage box, the shading plate is arranged in an inclined mode, and a filter screen is fixed at the lower end of the shading plate; during operation, the design of light screen can improve the save effect to the inside cleaning solution of stock solution box, prevents that sunshine from penetrating directly and leading to a large amount of evaporation of water, and the light screen slope is placed and can be effectual is collected outside rainwater when raining to supply the water source, the filter screen can filter the rainwater of collecting simultaneously.

Preferably, a plurality of elastic pieces are fixed outside the hollow floating ball, and a turbulent flow ball is fixed at one end of each elastic piece, which is far away from the hollow floating ball; the during operation, at the cleaning solution through electromagnetic switch valve exhaust in-process, the flow of the inside cleaning solution of transition chamber can drive the vortex ball and move, thereby the motion of vortex ball drives the flexure strip and makes its crooked back motion to the vortex ball just can carry out reciprocating stirring to the flexure strip, the concentration of homogenization exhaust cleaning solution, further improvement clean effect.

Preferably, the turbulence ball is hollow, disinfectant is contained in the turbulence ball, and a pair of elastic membranes is fixed at the bottom end of the turbulence ball; the during operation, at the reciprocal in-process that bounces of vortex ball, its inside antiseptic solution also can rock thereupon to strike elastic membrane, at antiseptic solution striking elastic membrane's in-process, can make and appear the gap between the elastic membrane, like this antiseptic solution alright through this gap discharge part, to the disinfection of carrying on of transition intracavity portion, prevent that the microorganism from causing the internal plant to corrode at transition intracavity portion.

The invention has the following beneficial effects:

1. according to the vehicle-mounted optical anti-shake camera, the camera is protected through the optical lens, the damage of the camera caused by the impact of sundries flowing in air in the process of high-speed driving is prevented, meanwhile, the buffer spring can buffer the vibration of an automobile in the driving process, the shake of the camera during working is reduced, and the anti-shake effect is achieved.

2. According to the vehicle-mounted optical anti-shake camera, the transmission plug is pushed to slide through the high-pressure airflow, the cleaning scraper is further pushed to slide after compressing the return spring, the sponge cushion can be driven to scrape the surface of the optical lens in the sliding process of the cleaning scraper, and therefore the effect of automatically cleaning the surface of the camera device in the high-speed running process is achieved.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a sectional view of the camera housing according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic structural view of a hollow floating ball structure according to a second embodiment of the present invention.

In the figure: 1. connecting the shell; 2. a camera housing; 3. an optical lens; 4. a camera; 5. supporting the table; 6. a buffer spring; 7. a cleaning blade; 8. a transmission rod; 9. a drive plug; 10. an air inlet pipe; 11. a return spring; 12. a liquid storage box; 13. a drain hole; 14. a transition chamber; 15. an electromagnetic on-off valve; 16. an air pressure hole; 17. a pressurizing hole; 18. a dust plug; 19. a hollow floating ball; 20. a closing plug; 21. an expansion strip; 22. a visor; 23. a filter screen; 24. an elastic sheet; 25. a turbulent flow ball; 26. an elastic film.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

As shown in fig. 1, a vehicle-mounted optical anti-shake camera according to an embodiment of the present invention includes a connecting housing 1, wherein camera housings 2 are mounted on both sides of the connecting housing 1, a camera 4 is fixed inside the camera housing 2, an optical lens 3 is disposed outside the camera 4, the optical lens 3 is fixedly connected to the camera housing 2, a supporting table 5 is fixed at a lower end of the connecting housing 1, and a plurality of buffer springs 6 are fixed inside the supporting table 5; the during operation, do 5 with equipment fixing on the top of vehicle through a supporting bench, like this at the in-process that the vehicle traveles alright monitor all around through camera 4, play the snapshot that tests the speed, make a video recording etc., optical lens 3's design can effectually protect camera 4 simultaneously, the debris striking that flows in the in-process air that prevents to travel at a high speed leads to the condition of camera 4 damage to appear, buffer spring 6's design can cushion the vibrations of the in-process that the car traveles simultaneously, thereby reduce camera 4 and shake the condition at the during operation, reach the effect of anti-shake.

As shown in fig. 1 to 2, an air inlet pipe 10 is connected to one side of the camera housing 2, which is far away from the connecting housing 1, in a penetrating manner, one end of the air inlet pipe 10, which is far away from the camera housing 2, is communicated with a high-pressure air pump through a pipeline, a hollow groove is formed in the camera housing 2 and is located at the output end of the air inlet pipe 10, a transmission plug 9 is connected to the inside of the hollow groove and is located below the air inlet pipe 10 in a sliding manner, a transmission rod 8 is fixed to the lower end of the transmission plug 9, a cleaning scraper 7 is fixed to one end, which is far away from the transmission plug 9, of the transmission rod 8, the cleaning scraper 7 is connected with the camera housing 2 in a sliding manner, a return spring 11 is fixed to the lower end of the cleaning scraper 7, a sponge pad is fixed to one side, which is close to the center of the camera housing 2, of the cleaning scraper 7, and the side, which is close to the center of the camera housing 2, are on the same plane as the outer surface of the optical lens 3; the during operation, at the in-process that goes at high speed, in case accompany the driver discovery picture of making a video recording appear fuzzy, and because the surface of optical lens 3 is when the reason that the dust sheltered from leads to, accompany the driver and can remind the main driver to open the switch of high compression pump, thereby high pressure draught pours into the intake pipe 10 into through the pipeline, it pours into the dead slot of 2 inside of casing of making a video recording into to advance intake pipe 10 afterwards, at this moment, high pressure draught can promote transmission stopper 9 and slide, thereby transmission stopper 9 slides and drive the motion of transfer line 8, and then it slides after promoting cleaning scraper 7 compression reset spring 11, and it can drive the foam-rubber cushion and scrape optical lens 3's surface at the gliding in-process of cleaning scraper 7, thereby reached and can go on clear effect to the camera device surface in the in-process that goes at high speed automatically.

As shown in fig. 2 to 3, a liquid storage box 12 is fixed above the camera housing 2, a liquid discharge hole 13 is formed in the camera housing 2 and below the liquid storage box 12, a transition cavity 14 is connected to one side of the liquid discharge hole 13 away from the liquid storage box 12 in a penetrating manner, a liquid discharge pipe is connected below the transition cavity 14 in a penetrating manner, and an electromagnetic switch valve 15 is fixed inside the liquid discharge pipe; during operation, the inside cleaning solution of saving of stock solution box 12 can be poured into the transshipment chamber 14 through outage 13 under initial condition in, is intercepted by solenoid switch valve 15 afterwards, and after high compression pump was opened, solenoid switch valve 15 also can be opened simultaneously to the inside cleaning solution of transshipment chamber 14 just can be discharged, thereby the cleaning effect to optical lens 3 surface has further been improved to optical lens 3 surface that the discharging cleaning solution can drip on optical lens 3's surface.

As shown in fig. 2 to 3, a pressurizing hole 17 is formed in the camera housing 2 and located at the lower end of the liquid discharge pipe, air pressure holes 16 are formed in the camera housing 2 and located at both sides of the pressurizing hole 17, and the air pressure holes 16 are communicated with the empty groove; during operation, at the cleaning solution through the exhaust in-process of solenoid switch valve 15, it can drip to in the pressurization hole 17, it is less than the aperture of fluid-discharge tube that needs to explain the aperture of pressurization hole 17, thereby the cleaning solution at this moment has an effect of accelerating, it explains simultaneously that, when transmission stopper 9 slides to atmospheric pressure hole 16 lower extreme, cleaning blade 7 accomplishes the scraping operation to optical lens 3 just this moment, at this moment cleaning blade 7 is located optical lens 3's below and thus does not cause the influence to optical lens 3, at this moment partial high pressure air current in the dead slot can inject into pressurization hole 17 through atmospheric pressure hole 16 in, the cleaning solution in the mixed pressurization hole 17 is together discharged afterwards, high pressure air current can be broken the cleaning solution and form the water fog and blow down on optical lens 3's surface, thereby further improvement to the cleaning effect on optical lens 3 surface.

As shown in fig. 3, a dust plug 18 is fixed above the cleaning blade 7, and the dust plug 18 is adapted to the pressurizing hole 17; the during operation, after clean the accomplishing, high compression pump is shut down to reset spring 11 resets and promotes clean scraper blade 7 and resets, thereby clean scraper blade 7 resets drives dustproof stopper 18 and the contact of pressurization hole 17, thereby with the shutoff of pressurization hole 17, thereby effectually prevents that outside dust from entering into the inside corrosion that causes of pressurization hole 17, what need explain should install the relief valve in the pipeline of intake pipe 10, so that transmission stopper 9 normally resets.

As shown in fig. 3, a hollow floating ball 19 is arranged inside the transition cavity 14, a closing plug 20 is fixed at the top end of the hollow floating ball 19 through a connecting rod, the closing plug 20 is matched with the liquid discharge hole 13, a plurality of limiting rods are slidably connected to the outside of the closing plug 20, and the limiting rods are fixedly connected with the camera shell 2; the during operation, when the inside cleaning solution of stock solution box 12 pours into transition chamber 14 inside into through outage 13, along with the rising of the inside liquid level of transition chamber 14, hollow floating ball 19 can come up under the effect of buoyancy, thereby promote the closure plug 20 and slide and seal outage 13, it needs to explain that, hollow floating ball 19's buoyancy is greater than the pressure of the inside liquid of stock solution box 12 to closure plug 20, hollow floating ball 19 just can promote closure plug 20 and seal outage 13 when the inside solution of transition chamber 14 accumulates to hollow floating ball 19 enough floated degree like this, thereby reached the effect that the cleaning solution was sprayed to the ration.

As shown in fig. 3, a plurality of expansion strips 21 are fixed between the hollow floating ball 19 and the electromagnetic switch valve 15, and the expansion strips 21 can be reused; during operation, the inflation strip 21 is its inflation that can produce certain degree after absorbing liquid, and then supports hollow floating ball 19 and closing plug 20, and at the in-process of arranging the cleaning fluid like this, because the supporting effect of inflation strip 21, closing plug 20 can not very first time and flowing back hole 13 separation to there is sufficient time to discharge the inside cleaning fluid of transition chamber 14.

As shown in fig. 2, a light screen 22 is fixed at the top end of the liquid storage box 12, the light screen 22 is arranged obliquely, and a filter screen 23 is fixed at the lower end of the light screen 22; during operation, the design of light screen 22 can improve the save effect to the inside cleaning solution of stock solution box 12, prevents that sunshine from penetrating directly and leading to a large amount of evaporation of water, and light screen 22 slope is placed and can be effectual when raining collect outside rainwater to supply the water source, filter screen 23 can filter the rainwater of collecting simultaneously.

Example two

As shown in fig. 4, a first comparative example, in which another embodiment of the present invention is: a plurality of elastic pieces 24 are fixed outside the hollow floating ball 19, and a turbulent ball 25 is fixed at one end of each elastic piece 24, which is far away from the hollow floating ball 19; the during operation, at the cleaning solution through the 15 exhaust in-process of electromagnetic switch valve, the flow of the inside cleaning solution of transition chamber 14 can drive vortex ball 25 and move, thereby vortex ball 25 moves and drives flexure strip 24 and make its crooked back motion to vortex ball 25 just can carry out reciprocal stirring to flexure strip 24, the concentration of the exhaust cleaning solution of homogenization, further improvement clean effect.

As shown in fig. 4, the turbulent ball 25 is hollow, the interior of the turbulent ball is filled with disinfectant, and a pair of elastic membranes 26 is fixed at the bottom end of the turbulent ball 25; the during operation, at the reciprocal in-process that bounces of vortex ball 25, its inside antiseptic solution also can rock thereupon, thereby strike elastic membrane 26, it is to explain that, drive the antiseptic solution when striking elastic membrane 26 at vortex ball 25 bullet in-process, the impact force of its production should be greater than the elasticity between a pair of elastic membrane 26, at antiseptic solution striking elastic membrane 26's in-process like this, can make and appear the gap between the elastic membrane 26, antiseptic solution alright pass through this gap discharge part like this, disinfect and disinfect to 14 inside transitionary chamber, prevent that the microorganism from causing the internal plant to corrode in transitionary chamber 14 is inside.

The working principle is as follows: when the device is used, the device is arranged at the top end of a vehicle through the supporting table 5, so that the periphery can be monitored through the camera 4 in the running process of the vehicle, speed measurement, snapshot, camera shooting and the like are achieved, meanwhile, the camera 4 can be effectively protected through the design of the optical lens 3, the situation that the camera 4 is damaged due to impact of sundries flowing in air in the high-speed running process is prevented, meanwhile, the shock in the running process of the vehicle can be buffered through the design of the buffer spring 6, the situation that the camera 4 shakes during working is reduced, and the anti-shake effect is achieved;

in the process of high-speed driving, once an accompanying driver finds that a camera shooting picture is blurred, and when the surface of the optical lens 3 is caused by reasons of dust shielding, the accompanying driver can remind a main driver to turn on a switch of a high-pressure air pump, so that high-pressure air flow is injected into an air inlet pipe 10 through a pipeline and then is injected into a hollow groove in the camera shooting shell 2 through the air inlet pipe 10, at the moment, the high-pressure air flow can push a transmission plug 9 to slide, the transmission plug 9 slides to drive a transmission rod 8 to move, and further push a cleaning scraper 7 to compress a return spring 11 and then slide, and the cleaning scraper 7 can drive a sponge pad to scrape the surface of the optical lens 3 in the sliding process, so that the effect of automatically cleaning the surface of the camera shooting device in the process of high-speed driving is achieved;

in the initial state, the cleaning liquid stored in the liquid storage box 12 can be injected into the transition chamber 14 through the liquid discharge hole 13 and then intercepted by the electromagnetic switch valve 15, after the high-pressure air pump is opened, the electromagnetic switch valve 15 is also opened at the same time, so that the cleaning liquid in the transition chamber 14 can be discharged, and the discharged cleaning liquid can drip on the surface of the optical lens 3, thereby further improving the cleaning effect on the surface of the optical lens 3; in the process that the cleaning liquid is discharged through the electromagnetic switch valve 15, the cleaning liquid can drop into the pressurizing hole 17, it needs to be noted that the aperture of the pressurizing hole 17 is smaller than that of the liquid discharge pipe, so that the cleaning liquid at this time has an accelerating effect, it needs to be noted that when the transmission plug 9 slides to the lower end of the air pressure hole 16, the cleaning scraper 7 just scrapes the optical lens 3, at this time, the cleaning scraper 7 is located below the optical lens 3 so as not to affect the optical lens 3, at this time, part of high-pressure air flow in the empty groove can be injected into the pressurizing hole 17 through the air pressure hole 16, then the cleaning liquid in the pressurizing hole 17 is mixed and discharged together, the high-pressure air flow can crash the cleaning liquid into water to be blown on the surface of the optical lens 3, and thus the cleaning effect on the surface of the optical lens 3 is further improved; after cleaning, the high-pressure air pump is stopped, so that the reset spring 11 resets to push the cleaning scraper 7 to reset, the cleaning scraper 7 resets to drive the dustproof plug 18 to contact with the pressurizing hole 17, the pressurizing hole 17 is blocked, and external dust is effectively prevented from entering the pressurizing hole 17 to cause corrosion;

when the cleaning liquid in the liquid storage box 12 is injected into the transition cavity 14 through the liquid discharge hole 13, along with the rising of the liquid level in the transition cavity 14, the hollow floating ball 19 floats upwards under the action of buoyancy force, so that the sealing plug 20 is pushed to slide to seal the liquid discharge hole 13, it is required to be explained that the buoyancy force of the hollow floating ball 19 is greater than the pressure of the liquid in the liquid storage box 12 on the sealing plug 20, so that when the solution in the transition cavity 14 is accumulated to the extent that the hollow floating ball 19 can float enough, the hollow floating ball 19 can push the sealing plug 20 to seal the liquid discharge hole 13, and the effect of quantitatively spraying the cleaning liquid is achieved; the expansion strip 21 can expand to a certain degree after absorbing the liquid, so that the hollow floating ball 19 and the closing plug 20 are supported, and therefore in the process of discharging the cleaning liquid, due to the supporting effect of the expansion strip 21, the closing plug 20 cannot be separated from the liquid discharge hole 13 for the first time, and the cleaning liquid in the transition cavity 14 can be discharged in enough time;

the design of the light shielding plate 22 can improve the preservation effect of the cleaning solution in the liquid storage box 12, prevent a large amount of water from evaporating due to direct irradiation of sunlight, and the light shielding plate 22 is obliquely arranged to effectively collect external rainwater in rainy days so as to supplement water sources, and meanwhile, the filter screen 23 can filter the collected rainwater;

in the process that the cleaning liquid is discharged through the electromagnetic switch valve 15, the flow of the cleaning liquid in the transition cavity 14 drives the turbulent ball 25 to move, and the turbulent ball 25 moves to drive the elastic sheet 24 to bend and then move, so that the turbulent ball 25 can stir the elastic sheet 24 in a reciprocating manner, homogenize the concentration of the discharged cleaning liquid, and further improve the cleaning effect; and at the reciprocal in-process that bounces of vortex ball 25, its inside antiseptic solution also can rock thereupon, thereby strike elastic membrane 26, it is required to explain, when vortex ball 25 bounces the in-process and drives the antiseptic solution and strike elastic membrane 26, the impact force of its production should be greater than the elasticity between a pair of elastic membrane 26, at antiseptic solution striking elastic membrane 26's in-process like this, can make and appear the gap between the elastic membrane 26, antiseptic solution alright pass through this gap discharge part like this, disinfect to 14 inside disinfecting of transition chamber, prevent that microorganism from causing the internal plant to corrode in transition chamber 14 is inside.

The front, the back, the left, the right, the upper and the lower are all based on figure 1 in the attached drawings of the specification, according to the standard of the observation angle of a person, the side of the device facing an observer is defined as the front, the left side of the observer is defined as the left, and the like.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are merely intended to facilitate the description of the present invention and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention.

The foregoing shows and describes the general principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a vehicular optics anti-shake camera which characterized in that: including connecting casing (1), it all installs camera shell (2) to connect casing (1) both sides, camera shell (2) inside is fixed with camera (4), camera (4) outside is provided with optical lens piece (3), optical lens piece (3) and camera shell (2) fixed connection, it does (5) to connect casing (1) lower extreme to be fixed with a supporting bench, a plurality of buffer spring (6) are fixed with to supporting bench do (5) inside.

2. The vehicle-mounted optical anti-shake camera according to claim 1, wherein: an air inlet pipe (10) is connected with one side of the camera shell (2) far away from the connecting shell (1) in a penetrating way, one end of the air inlet pipe (10) far away from the camera shell (2) is communicated with a high-pressure air pump through a pipeline, the output end of the air inlet pipe (10) in the camera shell (2) is provided with a hollow groove, a transmission plug (9) is connected in the hollow groove and below the air inlet pipe (10) in a sliding way, a transmission rod (8) is fixed at the lower end of the transmission plug (9), a cleaning scraper (7) is fixed at one end of the transmission rod (8) far away from the transmission plug (9), the cleaning scraper (7) is connected with the camera shell (2) in a sliding way, a return spring (11) is fixed at the lower end of the cleaning scraper (7), a sponge pad is fixed on one side of the cleaning scraper (7) close to the center of the camera shell (2), the side surface of the spongy cushion close to the center of the camera shell (2) and the outer surface of the optical lens (3) are on the same plane.

3. The vehicle-mounted optical anti-shake camera according to claim 1, wherein: the utility model discloses a camera shooting device, including camera shooting casing (2), camera shooting casing (2) top is fixed with stock solution box (12), inside just being located the below of stock solution box (12) of camera shooting casing (2) has seted up outage (13), one side through connection that stock solution box (12) were kept away from in outage (13) has transition chamber (14), transition chamber (14) below through connection has the fluid-discharge tube, the fluid-discharge tube inside is fixed with electromagnetic switch valve (15).

4. The vehicle-mounted optical anti-shake camera according to claim 2, wherein: the camera shooting device is characterized in that a pressurizing hole (17) is formed in the camera shooting shell (2) and located at the lower end of the liquid discharge pipe, air pressure holes (16) are formed in the camera shooting shell (2) and located on two sides of the pressurizing hole (17), and the air pressure holes (16) are communicated with the empty groove.

5. The vehicle-mounted optical anti-shake camera according to claim 2, wherein: a dustproof plug (18) is fixed above the cleaning scraper (7), and the dustproof plug (18) is matched with the pressurizing hole (17).

6. A vehicle mounted optical anti-shake camera according to claim 3, further comprising: a hollow floating ball (19) is arranged in the transition cavity (14), a sealing plug (20) is fixed at the top end of the hollow floating ball (19) through a connecting rod, the sealing plug (20) is matched with the liquid discharge hole (13), a plurality of limiting rods are connected to the outside of the sealing plug (20) in a sliding mode, and the limiting rods are fixedly connected with the camera shell (2).

7. The vehicle-mounted optical anti-shake camera according to claim 6, wherein: a plurality of expansion strips (21) are fixed between the hollow floating ball (19) and the electromagnetic switch valve (15), and the expansion strips (21) can be reused.

8. A vehicle-mounted optical anti-shake camera according to claim 3, wherein: a shading plate (22) is fixed at the top end of the liquid storage box (12), the shading plate (22) is arranged in an inclined mode, and a filter screen (23) is fixed at the lower end of the shading plate (22).

9. The vehicle-mounted optical anti-shake camera according to claim 6, wherein: a plurality of elastic pieces (24) are fixed to the outer portion of the hollow floating ball (19), and a turbulent flow ball (25) is fixed to one end, far away from the hollow floating ball (19), of each elastic piece (24).

10. The vehicle-mounted optical anti-shake camera according to claim 9, wherein: the turbulence ball (25) is hollow, disinfectant is contained in the turbulence ball, and a pair of elastic membranes (26) is fixed at the bottom end of the turbulence ball (25).

Images