CN116208835A - Panoramic camera image transmission device and method - Google Patents

Abstract

The invention belongs to the camera image transmission technology, and particularly discloses a panoramic camera image transmission device and method. The panoramic camera image transmission device comprises a base, wherein a motor is fixedly installed in the base. The invention can drive the cover body to rise to align with the heat radiation opening when the external temperature is lower than 0 degree, guide the heat generated by the circuit board to the position of the cover body, the hose, the cavity and the air hole to the rotating groove, so as to blow the heat to the inner wall of the rotating groove, heat the inner wall of the rotating groove, thereby avoiding freezing between the rotating table and the rotating groove, ensuring that the rotating table can normally rotate, realizing the resetting of the cover body when the temperature rises to more than 0 degree, opening the heat radiation opening, realizing the descending of the frame body to cover the element on the circuit board assembly when the cover body rises to butt against the heat radiation opening, and guiding the heat to directly enter the cover body through the frame body so as to prevent the heat from contacting the inner wall of the camera shell, thereby improving the heating effect of the rotating groove.

Description

Panoramic camera image transmission device and method

Technical Field

The invention belongs to the technical field of camera image transmission, and particularly relates to a panoramic camera image transmission device and method.

Background

An image may be defined as a reproduction of a scene on a medium such as a picture, movie, fax, television, etc. that can be made to obtain image information. The process of transmitting or storing image information to a remote location is generally referred to as image transmission.

The current panoramic camera image transmission device comprises panoramic camera and can drive it to rotate the bottom cloud platform, and current panoramic camera image transmission device is when the region that the temperature is low uses, when being in winter, the cloud platform that is located on the panoramic camera image transmission device that external used can contact with the steam in the air, and the low external temperature can lead to the steam on the cloud platform to freeze to lead to the cloud platform to freeze unable rotation, leads to unable cloud platform unable normal drive panoramic camera rotation and uses.

Therefore, it is necessary to invent a panoramic camera image transmission apparatus and method to solve the above problems.

Disclosure of Invention

In view of the above, the present invention provides a panoramic camera image transmission device and method, so as to solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a panorama camera image transmission device, includes the base, the inside fixed mounting of base has the motor, the output shaft top fixedly connected with revolving stage of motor, the top of base is seted up and is changeed the inslot with revolving stage complex, the revolving stage rotates and installs at the revolving stage, the top symmetry fixed mounting of revolving stage has the curb plate, two be equipped with the camera casing between the curb plate, the front side of camera casing is equipped with the camera lens, the diapire of camera casing is equipped with the circuit board subassembly with camera lens complex, be equipped with image sensor, AD module, digital signal processing chip on the circuit board subassembly, the back of circuit board subassembly is equipped with complex net twine connecting port, the roof of camera casing is equipped with the radiator module, the thermovent has all been seted up to the both sides of camera casing, the both sides of camera casing just are located the below of thermovent all be equipped with the cover body, the spout has all been seted up to the both sides of camera casing symmetry, be equipped with the slider in the spout, a pair of slider all with cover body fixed connection, the top of slider is equipped with first spring, the outside of camera casing is equipped with when the outside is equipped with 0 and is equipped with the control cover and is equipped with the inside the air vent that the inside the cavity is located the revolving stage, the inside is equipped with the air vent that the cavity is opened to the equal to the inside the base through the groove.

Further, the heat dissipation assembly comprises a motor, the motor is fixedly arranged in the middle of the top wall of the camera shell, and an output shaft of the motor is fixedly connected with fan blades.

Further, the control assembly comprises an electromagnet fixedly connected to the outer side of the camera shell and located above the heat dissipation opening, the material of the cover body is iron, a temperature sensor and a PLC (programmable logic controller) are fixedly installed at the bottom of the camera shell, the temperature sensor is electrically connected with the PLC, and the PLC is electrically connected with the electromagnet.

Further, the inner wall symmetry of camera casing has seted up the movable groove, sliding mounting has the movable plate in the movable groove, two fixedly connected with framework between the movable plate, the outside of framework is equipped with and is used for not totally closing the closure assembly at its top, the wire hole has all been seted up to the equal symmetry in both sides of camera casing, the cover body is through the stay wire and framework top fixed connection that pass the wire hole, the opening has all been seted up to the both sides that the framework is close to the thermovent, the outside of framework is equipped with the butt joint subassembly that is used for the butt joint of opening and thermovent.

Further, the butt joint subassembly includes fixed connection in the framework outside and with the flexible pipe that the open position corresponds, one side fixedly connected with butt joint pipe that the framework was kept away from to flexible pipe, the top of butt joint pipe is equipped with the cambered surface, the spacing groove has been seted up to the bottom of movable plate, the inside slidable mounting in spacing groove has the limiting plate, the bottom and the butt joint pipe fixed connection of limiting plate, one side that the limiting plate is close to the framework passes through the inner wall fixed connection of second spring and spacing groove.

Further, the seal assembly includes a pair of closure plate, the recess has been seted up to the top symmetry of framework, the pivot is installed in the recess rotation, pivot external fixation cover is equipped with the closure plate, the one end of pivot extends to its pivoted drive assembly of drive outside the recess, the top of closure plate is equipped with flabellum complex drainage structure.

Further, the drainage structure is specifically set to be a half bucket-shaped component, a semicircular opening matched with the drainage structure is formed in one side, far away from the rotating shaft, of the top of the sealing plate, and the drainage structure is fixedly connected to the top of the sealing plate and corresponds to the semicircular opening in position.

Further, the driving assembly comprises a gear fixedly connected with one end of the rotating shaft extending to the outside of the groove, and a rack meshed with the gear is fixedly arranged on the inner wall of the rear side of the camera shell.

The method for transmitting the image by using the panoramic camera image transmission device comprises the following steps:

s1, generating an optical image through lens shooting, and then projecting the optical image onto an image sensor;

s2, converting the image into an electric signal through an image sensor, converting the electric signal into a digital image signal through an A/D module, and then sending the digital image signal to a digital signal processing chip for processing and compressing video codes;

s3, transmitting the images to the background terminal through the network cable, and then enabling a user to take the photographed images through the background terminal for watching and using.

The invention has the technical effects and advantages that:

1. when the temperature of the outside is lower than 0 ℃, the cover body can be driven to rise to the position opposite to the heat dissipation opening, heat generated by the circuit board is matched with the cover body, the hose, the cavity and the air holes to the position of the rotating groove, so that the heat is blown to the inner wall of the rotating groove, the inner wall of the rotating groove is heated, the situation that the inner wall of the rotating groove is frozen can be avoided, freezing between the turntable and the rotating groove is avoided, the turntable can be guaranteed to normally rotate, and when the temperature is raised to more than 0 ℃, the cover body can be reset, the heat dissipation opening is opened, and normal use is carried out;

2. according to the invention, the cover body can be lifted up to be in butt joint with the heat dissipation port, the frame body can be lowered to cover the components on the circuit board assembly, and the circuit board assembly is covered by the frame body, so that heat can be led to directly enter the cover body, and the heat cannot be in contact with the inner wall of the camera shell, thereby reducing heat loss and improving the heating effect of the counter-rotating groove;

according to the invention, when the external temperature is lower than 0 ℃, the cover body can be driven to be aligned with the heat dissipation opening, heat generated by the circuit board is matched with the cover body, the hose, the cavity and the air hole to be led to the position of the rotary groove, so that the heat is blown to the inner wall of the rotary groove, the inner wall of the rotary groove is heated, the situation that the inner wall of the rotary groove is frozen can be avoided, freezing between the rotary table and the rotary groove is avoided, the rotary table can be guaranteed to normally rotate, when the temperature is raised to be higher than 0 ℃, the cover body can be reset, the heat dissipation opening is opened for normal use, and the frame body can be lowered to cover the elements on the circuit board assembly while the cover body is raised to be abutted with the heat dissipation opening, the heat can be led to directly enter the cover body through the cover body, the heat can not be contacted with the inner wall of the camera housing, the heat loss is reduced, and the heating effect of the rotary groove is improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic structural diagram of a panoramic camera image transmission apparatus according to an embodiment of the present invention;

fig. 2 is a schematic diagram showing a cross-sectional structure of a panoramic camera image transmission apparatus according to an embodiment of the invention;

FIG. 3 shows an enlarged schematic view of the structure of FIG. 2A in accordance with an embodiment of the present invention;

FIG. 4 shows an enlarged schematic view of the structure of FIG. 2 at B in accordance with an embodiment of the invention;

fig. 5 shows a second schematic structural diagram of a panoramic camera image transmission apparatus according to an embodiment of the present invention;

fig. 6 shows a second schematic cross-sectional view of the panoramic camera image transmission apparatus according to an embodiment of the invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6 at C, according to an embodiment of the present invention;

in the figure: 1. a base; 2. a motor; 3. a turntable; 4. a side plate; 5. a camera housing; 6. a lens; 7. a circuit board assembly; 8. a motor; 9. a fan blade; 10. a heat radiation port; 11. a cover body; 12. a first spring; 13. an electromagnet; 14. a hose; 15. air holes; 16. a temperature sensor; 17. a PLC controller; 18. a frame; 19. a moving plate; 20. a pull wire; 21. a telescopic tube; 22. a butt joint pipe; 23. a closing plate; 24. a drainage structure; 25. a gear; 26. a rack; 27. a water outlet; 28. and a limiting plate.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a panoramic camera image transmission device, which comprises a base 1, wherein a motor 2 is fixedly arranged in the base 1, a turntable 3 is fixedly connected to the top of an output shaft of the motor 2, a rotating groove matched with the turntable 3 is formed in the top of the base 1, the turntable 3 is rotatably arranged in the rotating groove, side plates 4 are symmetrically and fixedly arranged at the top of the turntable 3, a camera shell 5 is arranged between the two side plates 4, the output shaft of the motor can drive the turntable 3, the side plates 4, the camera shell 5 and the lens 6 to rotate by starting the motor 2, the position of the lens 6 can be adjusted, the camera shell 5 is rotatably connected with the side plates 4, the front side of the camera shell 5 is provided with the lens 6, the lens 6 is a lens of a panoramic camera in the prior art, the bottom wall of the camera shell 5 is provided with a circuit board assembly 7 matched with the lens 6, the circuit board assembly 7 is provided with an image sensor, an A/D module and a digital signal processing chip, the back of the circuit board assembly 7 is provided with a matched network cable connecting port, an optical image is shot and generated through the lens 6, then the optical image is projected onto the image sensor, then the optical image is converted into an electric signal, the electric signal is converted into a digital image signal through the A/D module, the digital image signal is sent to a digital signal processing chip for processing and processing to carry out video coding compression, the video is transmitted to a background terminal through the network cable, then a user can take the shot image through the background terminal to watch and use, the image transmission of a camera is completed, the back of the circuit board assembly 7 is provided with the matched network cable connecting port and can be connected with the network cable, the top wall of the camera shell 5 is provided with a heat dissipation assembly, the two sides of the camera shell 5 are provided with heat dissipation openings 10, the two sides of the camera shell 5 and the lower part of the heat dissipation openings 10 are provided with a cover body 11, the two sides of the camera shell 5 are symmetrically provided with sliding grooves, sliding blocks are arranged in the sliding grooves, a pair of sliding blocks on the same side are fixedly connected with the cover 11, a first spring 12 is arranged at the top of the sliding blocks, a control component for controlling the cover 11 to rise to align with the heat dissipation port 10 when the temperature is lower than 0 ℃ is arranged outside the camera shell 5, a cavity is arranged inside the turntable 3, the bottom of the cover 11 is communicated with the cavity inside the turntable 3 through a hose 14, a heat insulation cotton sleeve is wrapped outside the hose 14, the loss in the heat transmission process can be reduced, air holes 15 facing the inner wall of the rotating groove are evenly arranged on the inner side and the outer side of the turntable 3 in a surrounding manner, a water outlet 27 communicated with the rotating groove is arranged on the outer side of the base 1, when the camera shell is used, the circuit board component 7 is subjected to heat dissipation through the heat dissipation component, the heat is discharged through the heat dissipation port 10, and when the temperature outside in winter is lower than 0 ℃, the heat dissipation port 10 is sealed, a rubber sealing strip is arranged on the inner side of the cover body 11, the sealing performance between the cover body 11 and the camera shell 5 can be improved through the rubber sealing strip, the cover body 11 is lifted and drives the sliding block to move along with the lifting of the cover body to compress the first spring 12 so as to deform the first spring to generate acting force, after the cover body 11 is aligned with the heat dissipation port 10, heat generated by the circuit board assembly 7 is guided into the cavity through the cover body 11 and the hose 14 and is discharged through the air hole 15 to blow the inner wall of the rotary groove, so that the inner wall of the rotary groove is heated, the situation of freezing of the inner wall of the rotary groove can be avoided, freezing between the rotary table 3 and the rotary groove is avoided, normal rotation of the rotary table 3 is ensured, when snow is accumulated between the rotary groove and the rotary table 3, snow water which is heated and melted can be discharged through the water outlet 27 to avoid remaining in the rotary groove, and when the temperature is raised to more than 0 ℃, at this time, the control component cancels the control of the cover 11, and the first spring 12 releases the acting force to drive the slider and the cover 11 to descend and reset, so that the cover 11 is separated from the heat dissipation port 10.

As shown in fig. 2, the heat dissipation assembly includes a motor 8, the motor 8 is fixedly mounted in the middle of the top wall of the camera housing 5, an output shaft of the motor 8 is fixedly connected with a fan blade 9, and the motor 8 is started to rotate the output shaft to drive the fan blade 9 to rotate, so that the circuit board assembly 7 can be blown, and heat dissipation of the circuit board assembly is accelerated.

As shown in fig. 5, the control assembly includes an electromagnet 13 fixedly connected to the outside of the camera housing 5 and located above the heat dissipation port 10, the cover 11 is made of iron, a temperature sensor 16 and a PLC controller 17 are fixedly installed at the bottom of the camera housing 5, the temperature sensor 16 is electrically connected with the PLC controller 17, the PLC controller 17 is electrically connected with the electromagnet 13, when the external temperature is lower than 0 ℃, the temperature sensor 16 senses that the temperature is lower than 0 ℃, then the electromagnet 13 is controlled to be electrified through the PLC controller 17 to have magnetism, the cover 11 is attracted to rise, the cover 11 is finally fixed with the electromagnet 13, when the temperature rises to above 0 ℃, the temperature sensor 16 controls the electromagnet 13 to be powered off through the PLC controller 17, otherwise, the temperature sensor 16 senses that the temperature is lower than 0 ℃.

As shown in fig. 2-3, the inner wall symmetry of camera casing 5 has been seted up and has been moved the groove, sliding mounting has moved board 19 in the groove, the material of moving board 19 is plastics, fixedly connected with framework 18 between two moving boards 19, the material of framework 18 is plastics, the outside of framework 18 is equipped with the closure assembly that is used for not totally closing its top, the line hole has all been seted up to the symmetry in both sides of camera casing 5, the opening has all been seted up to the both sides that the framework 18 is close to thermovent 10 through the stay 20 that passes the line hole, the opening has all been seted up to the both sides that the framework 18 is close to thermovent 10, the outside of framework 18 is equipped with the butt joint subassembly that is used for docking opening and thermovent 10, when the casing 11 risen, the framework 18 is because gravity can descend, finally the framework 18 descends to the component cover on with circuit board subassembly 7 laminating with circuit board subassembly 7, the top of framework 18 is not fully closed simultaneously, simultaneously the framework 18 is laminated with circuit board subassembly 7 back, the butt joint subassembly docks opening and thermovent 10, along with the rotation of flabellum 9, make and introduce into framework 18, guide the heat into the opening, guide the heat to the inside the casing 11, can directly get into the effect through the butt joint cover 11, the heat can not be brought into to the heat, the heat is directly through the butt joint assembly, and can be brought into the heat to the inner wall 11, the effect is cooled down through the casing 11, and can be directly to the heat through the heat input.

As shown in fig. 3, the docking assembly includes a telescopic tube 21 fixedly connected to the outside of the frame 18 and corresponding to the opening position, a docking tube 22 is fixedly connected to one side of the telescopic tube 21 away from the frame 18, an arc surface is provided at the top of the docking tube 22, a limit groove is provided at the bottom of the moving plate 19, a limit plate 28 is slidably mounted in the limit groove, the bottom of the limit plate 28 is fixedly connected with the docking tube 22, one side of the limit plate 28, which is close to the frame 18, is fixedly connected with the inner wall of the limit groove through a second spring, the frame 18 descends to drive the moving plate 19, the limit plate 28 and the docking tube 22 to descend, when the docking tube 22 is aligned with the heat dissipation opening 10, the compressed second spring releases the acting force to drive the limit plate 28 and the docking tube 22 to move towards the direction close to the heat dissipation opening 10, and finally the docking tube 22 is inserted into the heat dissipation opening 10, docking is completed, when the frame 11 descends and resets, otherwise, the docking tube 22 ascends through the stay wire 20, the arc surface of the docking tube 22 is made to collide with the inner wall of the heat dissipation opening 10, and the docking tube 22 is extruded and the reset plate 22 simultaneously, and the second spring is driven to reset the second spring to compress the docking tube 22, and the second spring is made to compress the heat dissipation opening and the docking assembly, and the top of the docking assembly is deformed.

As shown in fig. 3, 6 and 7, the sealing assembly comprises a pair of sealing plates 23, the top of the frame 18 is symmetrically provided with grooves, a rotating shaft is rotationally arranged in the grooves, the sealing plates 23 are fixedly sleeved outside the rotating shaft, one end of the rotating shaft extends to the outside of the grooves to drive a driving assembly which rotates the sealing plates, a drainage structure 24 matched with the fan blades 9 is arranged at the top of the sealing plates 23, the rotating shaft, the sealing plates 23 and the drainage structure 24 are driven to descend when the frame 18 descends, the sealing plates 23 and the drainage structure 24 are driven to rotate by the driving assembly to enable the sealing plates 23 to rotate downwards, finally the pair of sealing plates 23 are attached, the pair of drainage structures 24 are attached to each other, wind blown by the fan blades 9 can be blown into the frame 18 through the pair of drainage structures 24, and when the frame 18 ascends and resets, the sealing plates 23 and the drainage structure 24 are driven to rotate upwards by the driving assembly, so that the frame 18 is opened, and wind energy blown by the fan blades 9 is fully contacted with the circuit board assembly 7.

As shown in fig. 7, the drainage structure 24 is specifically configured as a half bucket-shaped member, a semicircular opening matched with the drainage structure 24 is formed on one side of the top of the sealing plate 23 far away from the rotating shaft, the drainage structure 24 is fixedly connected to the top of the sealing plate 23 and corresponds to the semicircular opening, when a pair of drainage structures 24 are attached to form a complete bucket-shaped member, at this time, the top of the frame 18 can be incompletely sealed by matching the pair of sealing plates 23 with the drainage structure 24, wind generated by rotation of the fan blade 9 can enter the frame 18 through the pair of drainage structures 24, and heat generated by the circuit board assembly 7 is led into the cover 11 through the opening, the telescopic tube 21 and the butt joint tube 22.

As shown in fig. 7, the driving assembly includes a gear 25 fixedly connected to one end of the rotating shaft extending to the outside of the groove, a rack 26 meshed with the gear 25 is fixedly mounted on the inner wall of the rear side of the camera housing 5, the frame 18 descends to drive the rotating shaft and the gear 25 to descend, so that the gear 25 cooperates with the rack 26 to rotate forward to drive the rotating shaft, the sealing plate 23 and the drainage structure 24 to rotate downward, and when the frame 18 ascends, the sealing plate 23 and the drainage structure 24 can rotate upward instead.

The method for transmitting the image by using the panoramic camera image transmission device comprises the following steps:

s1, generating an optical image through shooting by a lens 6, and then projecting the optical image onto an image sensor;

s2, converting the image into an electric signal through an image sensor, converting the electric signal into a digital image signal through an A/D module, and then sending the digital image signal to a digital signal processing chip for processing and compressing video codes;

s3, transmitting the images to the background terminal through the network cable, and then enabling a user to take the photographed images through the background terminal for watching and using.

Working principle: when in use, a scene to be shot is shot through the lens 6 to generate an optical image, then the optical image is projected onto the image sensor, then the optical image is converted into an electric signal, the electric signal is converted into a digital image signal through the A/D module, the digital image signal is sent to the digital signal processing chip for processing and processing to carry out video coding compression, the video is transmitted to the background terminal through a network cable, then a user can pick up the shot image through the background terminal for watching and using, the motor 8 is started to enable the output shaft of the motor to rotate to drive the fan blade 9 to enable the circuit board assembly 7 to blow air, heat dissipation of the circuit board assembly is accelerated, the heat is discharged through the heat dissipation opening 10, when the temperature outside in winter is lower than 0 ℃, the temperature sensor 16 senses that the temperature is lower than 0 ℃, then the electromagnet 13 is controlled to be electrified through the PLC controller 17 to enable the electromagnet to have magnetism, the attraction cover 11 is lifted to be aligned with the heat dissipation opening 10, the heat radiation opening 10 is sealed, the cover 11 is finally adsorbed and fixed with the electromagnet 13, the cover 11 rises and drives the sliding block to move along with the sliding block to compress the first spring 12 so as to deform to generate acting force, after the cover 11 is aligned with the heat radiation opening 10, heat generated by the circuit board assembly 7 is led into the cavity through the cover 11 and the hose 14 and then discharged through the air hole 15 to be blown to the inner wall of the rotary groove, so that the inner wall of the rotary groove is heated, the situation of freezing of the inner wall of the rotary groove can be avoided, freezing between the rotary table 3 and the rotary groove is avoided, the rotary table 3 can be ensured to normally rotate, when snow and snow are accumulated between the rotary groove and the rotary table 3, the snow and water which is heated and melted can be discharged through the water outlet 27 is avoided to remain in the rotary groove, when the temperature rises to more than 0 ℃, otherwise, the temperature sensor 16 controls the electromagnet 13 to be powered off through the PLC controller 17, the first spring 12 releases the acting force to drive the sliding block and the cover 11 to descend and reset, so that the cover 11 is separated from the heat dissipation opening 10, when the cover 11 ascends, the frame 18 descends due to gravity, the frame 18 finally descends to be attached to the circuit board assembly 7 to cover the components on the circuit board assembly 7, the frame 18 descends to drive the moving plate 19, the limiting plate 28 and the butt joint pipe 22 to descend, when the butt joint pipe 22 is aligned with the heat dissipation opening 10, the compressed second spring release acting force drives the limiting plate 28 and the butt joint pipe 22 to move towards the direction close to the heat dissipation opening 10, the butt joint pipe 22 is finally inserted into the heat dissipation opening 10 to complete the butt joint, meanwhile, the rotating shaft, the sealing plate 23 and the drainage structure 24 are driven to descend when the frame 18 descends, the gear 25 is matched with the rack 26 to generate positive rotation to drive the rotating shaft to drive the sealing plate 23 and the drainage structure 24 to rotate, the sealing plate 23 downwards to be attached to the sealing plate 23, and finally the pair of sealing plates 23, the pair of drainage structures 24 are mutually attached to realize incomplete sealing of the top of the frame 18, along with the rotation of the fan blade 9, wind enters the frame 18 through the drainage structures 24, guiding heat is led into the cover 11 through the opening, the telescopic pipe 21 and the butt joint pipe 22, the circuit board assembly 7 is covered through the frame 18, the heat can be led into the cover 11 directly, the heat can not contact with the inner wall of the camera shell 5, thereby reducing the loss of the heat, improving the heating effect of the butt joint groove, driving the frame 18 to rise through the stay wire 20 when the cover 11 descends and resets, otherwise, the butt joint pipe 22 rises through the arrangement of the cambered surface, the cambered surface of the butt joint pipe 22 is propped against the inner wall of the heat dissipation port 10, the butt joint pipe 22 is extruded to reset, the limiting plate 28 is driven to reset to compress the second spring to deform to generate acting force, finally, the butt joint pipe 22 is reset, butt joint with the heat dissipation port 10 is canceled, the frame 18 rises, and meanwhile, the matching gear 25 and the rack 26 can drive the rotating shaft, the sealing plate 23 and the drainage structure 24 to rotate upwards, so that the frame 18 is opened, and wind energy blown out by the fan blade 9 is ensured to be fully contacted with the circuit board assembly 7 to dissipate heat of the circuit board assembly 7.

Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. Panoramic camera image transmission device, including base (1), its characterized in that: the inside fixed mounting of base (1) has motor (2), the output shaft top fixedly connected with revolving stage (3) of motor (2), the revolving stage (3) complex change the groove with revolving stage (3) has been seted up at the top of base (1), revolving stage (3) rotation is installed in the change inslot, the top symmetry fixed mounting of revolving stage (3) has curb plate (4), two be equipped with camera casing (5) between curb plate (4), the front side of camera casing (5) is equipped with camera lens (6), the diapire of camera casing (5) is equipped with circuit board subassembly (7) with camera lens (6) complex, be equipped with image sensor, AD module, digital signal processing chip on circuit board subassembly (7), the back of circuit board subassembly (7) is equipped with complex net twine connecting port, the roof of camera casing (5) is equipped with the radiator module, thermovent (10) have all been seted up to the both sides of camera casing (5), both sides and be located the below of mouth (10) all be equipped with cover body (11), camera casing (5) both sides are equipped with symmetrical slider (11) and slider (12) are equipped with, slider (12) are all seted up to the slider, slider is equipped with one side (12), the outside of camera casing (5) is equipped with when the temperature is less than 0 degree control assembly that control cover body (11) risees and heat dissipation mouth (10) align, the inside of revolving stage (3) is equipped with the cavity, the bottom of cover body (11) is through hose (14) and the inside cavity intercommunication of revolving stage (3), the inside and outside both sides of revolving stage (3) are equidistant around being equipped with gas pocket (15) towards the rotor inner wall, outlet (27) with the rotor intercommunication have been seted up in the outside of base (1).

2. The panoramic camera image transmission device of claim 1, wherein: the heat dissipation assembly comprises a motor (8), the motor (8) is fixedly arranged in the middle of the top wall of the camera shell (5), and a fan blade (9) is fixedly connected with an output shaft of the motor (8).

3. The panoramic camera image transmission device of claim 1, wherein: the control assembly comprises an electromagnet (13) fixedly connected to the outer side of the camera shell (5) and located above the heat radiation opening (10), the material of the cover body (11) is iron, a temperature sensor (16) and a PLC (programmable logic controller) (17) are fixedly installed at the bottom of the camera shell (5), the temperature sensor (16) is electrically connected with the PLC (17), and the PLC (17) is electrically connected with the electromagnet (13).

4. The panoramic camera image transmission device of claim 1, wherein: the camera comprises a camera shell (5), wherein a moving groove is symmetrically formed in the inner wall of the camera shell (5), a moving plate (19) is slidably installed in the moving groove, a frame body (18) is fixedly connected between the moving plates (19), a sealing component used for incompletely sealing the top of the frame body is arranged outside the frame body (18), wire passing holes are symmetrically formed in the two sides of the camera shell (5), a cover body (11) is fixedly connected with the top of the frame body (18) through stay wires (20) passing through the wire passing holes, openings are formed in the two sides, close to a heat dissipation opening (10), of the frame body (18), and a butt joint component used for butt joint of the openings and the heat dissipation opening (10) is arranged on the outer side of the frame body (18).

5. The panoramic camera image transmission device of claim 4, wherein: the butt joint assembly comprises a telescopic pipe (21) fixedly connected to the outer side of a frame body (18) and corresponding to an opening position, one side, away from the frame body (18), of the telescopic pipe (21) is fixedly connected with a butt joint pipe (22), the top of the butt joint pipe (22) is provided with an arc surface, a limit groove is formed in the bottom of a movable plate (19), a limit plate (28) is slidably mounted in the limit groove, the bottom of the limit plate (28) is fixedly connected with the butt joint pipe (22), and one side, close to the frame body (18), of the limit plate (28) is fixedly connected with the inner wall of the limit groove through a second spring.

6. The panoramic camera image transmission device of claim 5, wherein: the sealing assembly comprises a pair of sealing plates (23), grooves are symmetrically formed in the top of the frame body (18), a rotating shaft is rotatably arranged in the grooves, the sealing plates (23) are fixedly sleeved outside the rotating shaft, one end of the rotating shaft extends to the outside of the grooves to drive a driving assembly which rotates the rotating shaft, and a drainage structure (24) matched with the fan blades (9) is arranged at the top of the sealing plates (23).

7. The panoramic camera image transmission device of claim 6, wherein: the drainage structure (24) is specifically arranged as a half-bucket-shaped member, a semicircular opening matched with the drainage structure (24) is formed in one side, far away from the rotating shaft, of the top of the sealing plate (23), and the drainage structure (24) is fixedly connected to the top of the sealing plate (23) and corresponds to the semicircular opening in position.

8. The panoramic camera image transmission device of claim 7, wherein: the driving assembly comprises a gear (25) fixedly connected with one end of the rotating shaft extending to the outside of the groove, and a rack (26) meshed with the gear (25) is fixedly arranged on the inner wall of the rear side of the camera shell (5).

9. A method of image transmission using a panoramic camera image transmission apparatus as defined in any one of claims 1-8, wherein: the method comprises the following steps:

s1, shooting through a lens (6) to generate an optical image, and then projecting the optical image onto an image sensor;

s2, converting the image into an electric signal through an image sensor, converting the electric signal into a digital image signal through an A/D module, and then sending the digital image signal to a digital signal processing chip for processing and compressing video codes;

s3, transmitting the images to the background terminal through the network cable, and then enabling a user to take the photographed images through the background terminal for watching and using.

Images