CN113225463B

CN113225463B - Wireless intelligent omnidirectional monitoring camera

Info

Publication number: CN113225463B
Application number: CN202110481663.XA
Authority: CN
Inventors: 曹正
Original assignee: Shenzhen Qinghua Power Information Technology Co ltd
Current assignee: Shenzhen Qinghua Power Information Technology Co ltd
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2022-11-18
Anticipated expiration: 2041-04-30
Also published as: CN113225463A

Abstract

The invention relates to crushing and mixing equipment, in particular to a wireless intelligent omnibearing monitoring camera which comprises a detachable camera mechanism and an optional protective camera body mechanism, wherein the camera can be used independently or assembled, the camera can carry out omnibearing monitoring, the heat dissipation of the camera can be enhanced, the camera can clear accumulated snow, and the detachable camera mechanism is connected with the optional protective camera body mechanism.

Description

Wireless intelligent omnidirectional monitoring camera

Technical Field

The invention relates to a camera, in particular to a wireless intelligent omnibearing monitoring camera.

Background

In the use of camera, current camera can not satisfy the special condition in some areas of rain and snow and use to make the camera shoot the quality and descend, so designed this kind of wireless intelligent omnidirectional surveillance camera head.

Disclosure of Invention

The invention mainly solves the technical problem of providing a wireless intelligent all-around monitoring camera, wherein the camera can be used independently or assembled, the camera can carry out all-around monitoring, the heat dissipation of the camera can be enhanced, and the camera can clear accumulated snow.

In order to solve the technical problem, the invention relates to a crushing and mixing device, in particular to a wireless intelligent all-directional monitoring camera which comprises a detachable camera mechanism and an optional protective camera body mechanism, wherein the camera can be used independently or assembled, the camera can perform all-directional monitoring, the heat dissipation of the camera can be enhanced, and the camera can clear accumulated snow.

The detachable camera mechanism is connected with the optional protective machine body mechanism.

As a further optimization of the technical scheme, the detachable camera mechanism of the wireless intelligent omnibearing monitoring camera comprises a camera head seat, exhaust holes, threaded holes and a wireless intelligent camera, wherein the exhaust holes and the threaded holes are formed in the camera head seat, and the wireless intelligent camera is connected with the camera head seat.

As a further optimization of the technical scheme, the optional protective camera body mechanism of the wireless intelligent omnibearing monitoring camera comprises a base with a threaded hole, a detachable plate, a camera body, a rotating shaft, a rotating disc, a threaded hole I, a screw, a hollow shaft, a rainproof conical disc, a spraying channel, a hollow support, a lightening groove, a connecting pipe, a buffer seat, a semicircular bulge, a nut with a hole, an air inlet pipe, an air inlet one-way valve, a bevel gear I, a movable bearing seat, a hydraulic cylinder, a stair rod, a bevel gear with a shaft, an exhaust channel, the bevel gear with a shaft I, a blade, a stair tube, the bevel gear with a shaft II, a coupler, a motor, a fixed bearing seat, a bevel gear II, a communication channel, a connecting channel I, a heat exchange hole, a stair hole, a spring, an air outlet one-way valve, a communication channel, a sliding cavity, a reset spring, a limiting head with a handle, a sliding groove, a limiting head sliding groove, a reset spring I and a semicircular bulge I, the base with the threaded hole is connected with the machine body, the detachable plate is fixed on the machine body through a screw, the rotating shaft is rotationally connected with the machine body, the rotating shaft is connected with the rotating disc, the threaded hole I is arranged on the rotating disc, the screw is in threaded connection with the threaded hole I, the hollow shaft is rotationally connected with the machine body, the rain-proof cone disc is provided with a spraying channel, the hollow support is connected with the machine body, the lightening groove is arranged on the rotating disc, the connecting pipe is connected with the buffer seat, the connecting pipe is connected with the rain-proof cone disc, the semicircular bulge is connected with the buffer seat, the nut with the opening is in threaded connection with the screw, the buffer seat is connected with the air inlet pipe, the air inlet check valve is arranged in the air inlet pipe, the bevel gear is connected with the hollow shaft, the bevel gear is meshed with the bevel gear I, the bevel gear is connected with the bevel gear with the belt shaft, the bevel gear with the movable bearing seat is rotationally connected with a hydraulic rod of a hydraulic cylinder, the cylinder body of the hydraulic cylinder is connected with a machine body, a step rod is connected with a movable bearing seat, an exhaust channel is arranged on a bevel gear I with a shaft, blades are arranged on the bevel gear I with the shaft, a step pipe is connected with the bevel gear I with the shaft, a bevel gear II with the shaft is meshed with the bevel gear I with the shaft, a coupler is connected with a bevel gear II with the shaft, a motor is connected with the coupler, the motor is connected with the machine body, a fixed bearing seat is connected with the machine body, the bevel gear II with the shaft is rotationally connected with the fixed bearing seat, the bevel gear II with the shaft is meshed with the bevel gear II with the shaft, the bevel gear II and a rotating shaft are both provided with communicating channels, the step pipe is rotationally connected with the bevel gear II, the communicating channels are communicated with a connecting channel I, the connecting channel I is communicated with a heat exchange hole, the connecting channel I and the heat exchange hole are both arranged on a rotating disc, and the step hole is arranged on the machine body, the stepped hole is connected with the stepped rod in a sliding mode, the spring is sleeved on the stepped rod, the air outlet check valve is arranged in the air outlet channel, the air outlet channel is communicated with the communication channel, the communication channel is arranged on the rainproof cone disc, the sliding cavity is arranged on the buffer seat, the reset spring is arranged in the sliding cavity, the sliding cavity is communicated with the connecting pipe, the sliding cavity is connected with the hollowed-out shaft in a sliding mode, the sliding cavity is communicated with the air inlet pipe, the limiting head with the handle is inserted into the opening hole in the nut with the opening hole, the limiting head with the handle is connected with the handle sliding groove in a sliding mode, the handle sliding groove is arranged on the rotary disc, the limiting head sliding groove is arranged on the rotary disc, the reset spring I is arranged in the limiting head sliding groove, the reset spring I is connected with the limiting head with the handle, the semicircular bulge I is connected with the hollow support, the communication channel is communicated with the connecting pipe, the screw is in threaded connection with the threaded hole, and the heat exchange hole is communicated with the exhaust hole.

As a further optimization of the technical scheme, the number of the air outlet one-way valves of the wireless intelligent omnibearing monitoring camera is four.

As a further optimization of the technical scheme, the range of the pouring angle between the conical surface of the rainproof conical disc and the horizontal plane is 15-30 degrees.

As a further optimization of the technical scheme, the semicircular bulge and the semicircular bulge I of the wireless intelligent omnibearing monitoring camera are made of high manganese steel.

The wireless intelligent omnibearing monitoring camera has the beneficial effects that:

according to the wireless intelligent omnibearing monitoring camera, the camera can be used independently or assembled, the camera can conduct omnibearing monitoring, the heat dissipation of the camera can be enhanced, and the camera can clear accumulated snow.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a wireless intelligent omnidirectional monitoring camera according to the present invention.

Fig. 2 is a schematic structural diagram of a wireless intelligent omnidirectional monitoring camera according to the second embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a wireless intelligent omnidirectional monitoring camera according to the present invention.

Fig. 4 is a schematic structural diagram of a wireless intelligent omnidirectional monitoring camera according to a fourth embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a detachable camera mechanism 1 of a wireless intelligent omnidirectional monitoring camera according to the present invention.

Fig. 6 is a first schematic structural diagram of an optional protective body mechanism 2 of a wireless intelligent omnidirectional monitoring camera according to the present invention.

Fig. 7 is a second schematic structural diagram of an optional protective body mechanism 2 of a wireless intelligent omnidirectional monitoring camera according to the present invention.

Fig. 8 is a third schematic structural diagram of an optional protective body mechanism 2 of the wireless intelligent omnidirectional monitoring camera according to the present invention.

Fig. 9 is a fourth schematic structural diagram of an optional protective body mechanism 2 of a wireless intelligent omnidirectional monitoring camera according to the present invention.

Fig. 10 is a fifth schematic structural view of the optional protective body mechanism 2 of the wireless intelligent omnidirectional monitoring camera according to the present invention.

In the figure: a detachable camera mechanism 1; a camera head base 1-1; 1-2 of an exhaust hole; 1-3 of a threaded hole; 1-4 of a wireless intelligent camera; selecting and installing a protective machine body mechanism 2; a base 2-1 with a threaded hole; a detachable plate 2-2; a body 2-3; 2-4 of a rotating shaft; 2-5 of a turntable; threaded holes I2-6; 2-7 parts of a screw; 2-8 parts of a hollow shaft; 2-9 parts of a rainproof cone disc; 2-10 parts of an ejection channel; 2-11 parts of a hollow support; 2-12 weight reduction grooves; connecting pipes 2-13; 2-14 parts of a buffer seat; 2-15 parts of semicircular bulge; 2-16 of nuts with holes; an air inlet pipe 2-17; air inlet check valves 2-18; bevel gears 2-19; bevel gears I2-20; 2-21 parts of a movable bearing seat; 2-22 of a hydraulic cylinder; step bars 2-23; bevel gears 2-24 with shafts; exhaust passages 2 to 25; bevel gears I2-26 with shafts; 2-27 parts of blades; 2-28 parts of a stepped pipe; bevel gears II2-29 with shafts; 2-30 parts of a coupler; 2-31 parts of a motor; fixed bearing seats 2-32; bevel gears II2-33; communication channels 2-34; connecting channels I2-35; 2-36 parts of heat exchange holes; 2-37 parts of stepped hole; 2-38 parts of spring; 2-39 parts of an air outlet one-way valve; communicating channels 2-40; a sliding cavity 2-41; 2-42 of a return spring; a limiting head with a handle 2-43; handle runners 2-44; 2-45 parts of limiting head sliding groove; a return spring I2-46; semicircular bulges I2-47.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10, and the present invention relates to a crushing and mixing device, and more specifically, to a wireless intelligent omnidirectional monitoring camera, which includes a detachable camera mechanism 1 and an optional protective camera body mechanism 2, and the camera can be used alone or in assembly, can monitor in an omnidirectional manner, can enhance heat dissipation of the camera, and can clear snow.

The detachable camera mechanism 1 is connected with an optional protective machine body mechanism 2.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10, and the present embodiment further describes a first embodiment, where the detachable camera mechanism 1 includes a camera head seat 1-1, an exhaust hole 1-2, a threaded hole 1-3, and a wireless intelligent camera 1-4, the camera head seat 1-1 is provided with the exhaust hole 1-2 and the threaded hole 1-3, and the wireless intelligent camera 1-4 is connected to the camera head seat 1-1.

The third concrete implementation mode:

<xnotran> 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 , , 2 2-1, 2-2, 2-3, 2-4, 2-5, I2-6, 2-7, 2-8, 2-9, 2-10, 2-11, 2-12, 2-13, 2-14, 2-15, 2-16, 2-17, 2-18, 2-19, I2-20, 2-21, 2-22, 2-23, 2-24, 2-25, I2-26, 2-27, 2-28, II2-29, 2-30, 2-31, 2-32, II2-33, 2-34, I2-35, 2-36, 2-37, 2-38, 2-39, 2-40, 2-41, 2-42, 2-43, 2-44, 2-45, I2-46, </xnotran> A semicircular bulge I2-47, a base 2-1 with a threaded hole is connected with a machine body 2-3, a detachable plate 2-2 is fixed on the machine body 2-3 through a screw, a rotating shaft 2-4 is rotationally connected with the machine body 2-3, the rotating shaft 2-4 is connected with a rotating disc 2-5, a threaded hole I2-6 is arranged on the rotating disc 2-5, a screw 2-7 is in threaded connection with the threaded hole I2-6, a hollow shaft 2-8 is rotationally connected with the machine body 2-3, a rainproof cone disc 2-9 is provided with a spraying channel 2-10, a hollow support 2-11 is connected with the machine body 2-3, a weight reducing groove 2-12 is arranged on the rotating disc 2-5, a connecting pipe 2-13 is connected with a buffer seat 2-14, a connecting pipe 2-13 is connected with the rainproof cone disc 2-9, the semicircular bulges 2-15 are connected with the buffer seats 2-14, the nuts 2-16 with holes are in threaded connection with the screws 2-7, the buffer seats 2-14 are connected with the air inlet pipes 2-17, the air inlet check valves 2-18 are arranged in the air inlet pipes 2-17, the bevel gears 2-19 are connected with the hollow shafts 2-8, the bevel gears 2-19 are meshed with the bevel gears I2-20, the bevel gears 2-19 are connected with the bevel gears 2-24 with shafts, the bevel gears 2-24 with shafts are rotatably connected with the movable bearing seats 2-21, the movable bearing seats 2-21 are connected with the hydraulic rods of the hydraulic cylinders 2-22, the cylinder bodies of the hydraulic cylinders 2-22 are connected with the machine body 2-3, the step rods 2-23 are connected with the movable bearing seats 2-21, the exhaust passage 2-25 is arranged on a bevel gear I2-26 with a shaft, the bevel gear I2-26 with a shaft is provided with blades 2-27, the stepped pipe 2-28 is connected with the bevel gear I2-26 with a shaft, the bevel gear II2-29 with a shaft is meshed with the bevel gear I2-26 with a shaft, the coupling 2-30 is connected with the bevel gear II2-29 with a shaft, the motor 2-31 is connected with the coupling 2-30, the motor 2-31 is connected with the machine body 2-3, the fixed bearing seat 2-32 is connected with the machine body 2-3, the bevel gear II2-29 with a shaft is rotationally connected with the fixed bearing seat 2-32, the bevel gear II2-29 with a shaft is meshed with the bevel gear II2-33, the bevel gear II2-33 is meshed with the bevel gear II 2-24 with a shaft, the bevel gear II2-33 and the rotating shaft 2-4 are both provided with communicating passages 2-34, the stepped pipe 2-28 is rotatably connected with the bevel gear II2-33, the communicating channel 2-34 is communicated with the connecting channel I2-35, the connecting channel I2-35 is communicated with the heat exchange hole 2-36, the connecting channel I2-35 and the heat exchange hole 2-36 are both arranged on the rotary disc 2-5, the stepped hole 2-37 is arranged on the machine body 2-3, the stepped hole 2-37 is slidably connected with the stepped rod 2-23, the spring 2-38 is sleeved on the stepped rod 2-23, the air outlet one-way valve 2-39 is arranged in the ejecting channel 2-10, the ejecting channel 2-10 is communicated with the communicating channel 2-40, the communicating channel 2-40 is arranged on the rainproof conical disc 2-9, the sliding cavity 2-41 is arranged on the buffer seat 2-14, the reset springs 2-42 are arranged in the sliding cavities 2-41, the sliding cavities 2-41 are communicated with the connecting pipes 2-13, the sliding cavities 2-41 are connected with the hollowed-out shafts 2-8 in a sliding manner, the sliding cavities 2-41 are communicated with the air inlet pipes 2-17, the limiting heads 2-43 with handles are inserted into the open holes on the nuts 2-16 with open holes, the limiting heads 2-43 with handles are connected with the handle sliding grooves 2-44 in a sliding manner, the handle sliding grooves 2-44 are arranged on the rotating disc 2-5, the limiting head sliding grooves 2-45 are arranged on the rotating disc 2-5, the reset springs I2-46 are arranged in the limiting head sliding grooves 2-45, the reset springs I2-46 are connected with the limiting heads 2-43 with handles, the semicircular bulges I2-47 are connected with the hollow supports 2-11, the communication channels 2-40 are communicated with the handles 2-13, the screws 2-7 are in threaded connection with the threaded holes 1-3, the heat exchange holes 2-36 are communicated with the exhaust holes 1-2, when the camera is detached and used alone, the camera is not easy to push the handle 2-43 to the middle to be detached, the nut 2-13 is detached, the whole camera can be used, the camera can be detached from the open hole 2-16, the whole camera 2-16, the camera can be detached and the camera without the camera 2-16, the coupler 2-30 can drive the bevel gear II2-29 with a shaft to rotate, the bevel gear II2-29 with the shaft can drive the bevel gear II2-33 to rotate, the bevel gear II2-33 can drive the rotary table 2-5 to rotate, the rotary table 2-5 can drive the wireless intelligent camera 1-4 on the detachable camera mechanism 1 to rotate, and therefore dead-corner-free monitoring is conducted, the hollow shaft 2-8 and the hollow support 2-11 are both provided with hollow designs, and therefore dead corners are reduced; the camera can enhance the heat dissipation of the camera, when the bevel gear II2-29 with the shaft rotates, the bevel gear I2-26 with the shaft can be driven to rotate, the bevel gear I2-26 with the shaft can drive the blades 2-27 to rotate, the blades 2-27 can rotate to form upward airflow, the air enters the communicating channel 2-34 upwards and then is blown out of the heat exchange holes 2-36 and the threaded holes 1-3 through the connecting channels I2-35 to dissipate the heat of the wireless intelligent camera 1-4, and meanwhile, the heat generated by the transmission in the camera body 2-3 is taken away; the camera can clean accumulated snow, when the bevel gear II2-33 rotates, the bevel gear II 2-24 with a shaft can be driven to rotate, the bevel gear I2-20 rotates to drive the bevel gear 2-19 to rotate, the bevel gear 2-19 can drive the hollow shaft 2-8 to rotate, the hollow shaft 2-8 can drive the buffer seat 2-14 and the semicircular bulge 2-15 to synchronously rotate, the semicircular bulge 2-15 is extruded downwards when rotating to the position of the semicircular bulge I2-47 and then reset upwards under the resilience of the reset spring 2-42, so that front and back pressure changes exist in the sliding cavity 2-41, when the pressure of the sliding cavity 2-41 rises, the connecting pipe 2-13 and the gas in the communicating channel 2-40 can be extruded together, therefore, air is pressurized to blow open the air outlet one-way valve 2-39, rain and snow covering the rain-proof cone disc 2-9 can be sprayed downwards, so that power is provided, snow at the place where no air is sprayed can slide off along with the rain and snow, when the pressure in the sliding cavity 2-41 is reduced, outside air can be supplemented into the sliding cavity 2-41 from the air inlet pipe 2-17, when the rain-proof cone disc 2-9 rotates, the weight reduction grooves 2-12 can cause airflow change while playing a role of weight reduction, so that heat dissipation is enhanced, and when the rain and snow do not need to be cleaned, the movable bearing seat 2-21 can be pushed downwards through the hydraulic cylinder 2-22 to enable the bevel gear 2-24 with the shaft to be disengaged from the bevel gear II2-33, so that power is saved.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10, and the first embodiment will be further described, in which the number of air outlet check valves 2 to 39 is four.

The fifth concrete implementation mode:

the first embodiment will be further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10, and the angle of inclination between the cone surface of the rain-proof cone 2-9 and the horizontal plane is in the range of 15-30 degrees.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10, and the embodiment further describes the embodiment, and the semicircular protrusions 2 to 15 and the semicircular protrusions I2 to 47 are made of high manganese steel.

The working principle of the device is as follows: the camera can be used independently or assembled, when the camera is detached and used independently, the limiting heads 2-43 with the handles on the two sides are held and pushed towards the middle, so that the limiting heads 2-43 with the handles are separated from the holes in the nuts 2-16 with the holes, then the nuts 2-16 with the holes are screwed off, the screws 2-7 can be detached, the detachable camera mechanism 1 is detached entirely and used independently, different use requirements are met, and when the camera is not detached, the limiting function formed by the limiting heads 2-43 with the handles and the nuts 2-16 with the holes can also be connected and fastened and is not easy to fall off; the camera can carry out all-round monitoring, the shaft couplings 2-30 are driven to rotate through the operation of the motors 2-31, the shaft couplings 2-30 can drive the bevel gears II2-29 with shafts to rotate, the bevel gears II2-29 with shafts can drive the bevel gears II2-33 to rotate, the bevel gears II2-33 can drive the rotating discs 2-5 to rotate, the rotating discs 2-5 can drive the wireless intelligent cameras 1-4 on the detachable camera mechanism 1 to rotate, and therefore dead angle-free monitoring is carried out, the hollow shafts 2-8 and the hollow supports 2-11 are both provided with hollow designs, and therefore dead angles are reduced; the camera can enhance the heat dissipation of the camera, when the bevel gear II2-29 with the shaft rotates, the bevel gear I2-26 with the shaft can be driven to rotate, the bevel gear I2-26 with the shaft can drive the blades 2-27 to rotate, the blades 2-27 can form upward airflow when rotating, the air enters the communicating channels 2-34 upwards and then is blown out of the heat exchange holes 2-36 and the threaded holes 1-3 through the connecting channels I2-35 to dissipate the heat of the wireless intelligent camera 1-4, and meanwhile, the heat generated by the transmission in the camera body 2-3 is taken away; the camera can clean accumulated snow, when the bevel gear II2-33 rotates, the bevel gear II 2-24 with a shaft can be driven to rotate, the bevel gear I2-20 rotates to drive the bevel gear 2-19 to rotate, the bevel gear 2-19 can drive the hollow shaft 2-8 to rotate, the hollow shaft 2-8 can drive the buffer seat 2-14 and the semicircular bulge 2-15 to synchronously rotate, the semicircular bulge 2-15 is extruded downwards when rotating to the position of the semicircular bulge I2-47 and then reset upwards under the resilience of the reset spring 2-42, so that front and back pressure changes exist in the sliding cavity 2-41, when the pressure of the sliding cavity 2-41 rises, the connecting pipe 2-13 and the gas in the communicating channel 2-40 can be extruded together, therefore, the gas is pressurized to blow the air outlet one-way valve 2-39, rain and snow covered on the rain-proof conical disc 2-9 can be sprayed downwards, so that power is provided, snow at the place where no gas is sprayed can slide off along with the gas, when the pressure in the sliding cavity 2-41 is reduced, outside air can be supplemented into the sliding cavity 2-41 from the air inlet pipe 2-17, when the rain-proof conical disc 2-9 rotates, the weight reduction grooves 2-12 can cause airflow change while playing a role in reducing weight, so that heat dissipation is enhanced, when the rain and snow do not need to be cleaned, the movable bearing seat 2-21 is pushed downwards through the hydraulic cylinder 2-22 to enable the bevel gear 2-24 with the shaft to be disengaged from the bevel gear II2-33, so that power is saved.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an omnidirectional surveillance camera of wireless intelligence, includes can dismantle camera mechanism (1), optional dress protection fuselage mechanism (2), its characterized in that: the detachable camera mechanism (1) is connected with the optional protective machine body mechanism (2);

the detachable camera mechanism (1) comprises a camera head seat (1-1), exhaust holes (1-2), threaded holes (1-3) and a wireless intelligent camera (1-4), wherein the exhaust holes (1-2) and the threaded holes (1-3) are formed in the camera head seat (1-1), and the wireless intelligent camera (1-4) is connected with the camera head seat (1-1);

the optional protective machine body mechanism (2) comprises a base (2-1) with a threaded hole, a detachable plate (2-2), a machine body (2-3), a rotating shaft (2-4), a rotating disc (2-5), a threaded hole I (2-6), a screw (2-7), a hollowed-out shaft (2-8), a rainproof conical disc (2-9), a spraying channel (2-10), a hollow support (2-11), a weight reduction groove (2-12), a connecting pipe (2-13), a buffer seat (2-14), a semicircular bulge (2-15), a nut (2-16) with a hole, an air inlet pipe (2-17), an air inlet one-way valve (2-18), a bevel gear (2-19), a bevel gear I (2-20), a movable bearing seat (2-21), a hydraulic cylinder (2-22), a bevel rod (2-23), a bevel gear (2-24) with a shaft, an exhaust channel (2-25), a bevel gear I (2-26) with a shaft, blades (2-27), a stepped pipe (2-28), a shaft coupler (2-29), a bevel gear coupling (2-30), a motor (2-31), and a fixing shaft (32-32), bevel gear II (2-33), communicating channel I (2-34), connecting channel I (2-35), heat exchange hole (2-36), stepped hole (2-37), spring (2-38), air outlet one-way valve (2-39), communicating channel II (2-40), sliding cavity (2-41), reset spring (2-42), limiting head with handle (2-43), handle sliding groove (2-44), limiting head sliding groove (2-45), reset spring I (2-46) and semicircular bulge I (2-47), base with threaded hole (2-1) is connected with machine body (2-3), detachable plate (2-2) is fixed on machine body (2-3) through screw, rotating shaft (2-4) is rotationally connected with machine body (2-3), rotating shaft (2-4) is connected with rotating disc (2-5), threaded hole I (2-6) is arranged on rotating disc (2-5), threaded hole (2-7) is in threaded connection with I (2-6), hollow shaft (2-3) is connected with machine body (2-10) through screw, and rain-proof channel (2-10) is arranged on machine body (2-3), the hollow support (2-11) is connected with a machine body (2-3), the weight reduction groove (2-12) is arranged on a rotary table (2-5), a connecting pipe (2-13) is connected with a buffer seat (2-14), the connecting pipe (2-13) is connected with a rainproof conical disc (2-9), a semicircular bulge (2-15) is connected with the buffer seat (2-14), a nut (2-16) with a hole is connected with a screw (2-7) in a threaded manner, the buffer seat (2-14) is connected with an air inlet pipe (2-17), an air inlet check valve (2-18) is arranged in the air inlet pipe (2-17), a bevel gear (2-19) is connected with a hollowed shaft (2-8), the bevel gear (2-19) is engaged with a bevel gear I (2-20), the bevel gear (2-19) is connected with a bevel gear (2-24) with a shaft, the bevel gear (2-24) with the shaft is rotatably connected with a movable bearing seat (2-21), the movable bearing seat (2-21) is connected with a hydraulic rod (2-22) of a hydraulic cylinder, a hydraulic rod (2-22) is connected with a stepped shaft, a movable shaft rod (2-21) is connected with a cylinder body (2-21), and a cylinder body (2-21) is arranged on the movable bearing seat (2-21) is connected with a cylinder body, a stepped shaft, a hydraulic rod (2-14) and a hydraulic rod (2-14), and a hydraulic cylinder body (2-14) is provided with a stepped shaft I) and a stepped shaft I rod (2-17) On the heat exchanger, blades (2-27) are arranged on a shaft-mounted bevel gear I (2-26), a stepped pipe (2-28) is connected with the shaft-mounted bevel gear I (2-26), a shaft-mounted bevel gear II (2-29) is meshed with the shaft-mounted bevel gear I (2-26), a coupler (2-30) is connected with the shaft-mounted bevel gear II (2-29), a motor (2-31) is connected with the coupler (2-30), a motor (2-31) is connected with a machine body (2-3), a fixed bearing seat (2-32) is connected with the machine body (2-3), the shaft-mounted bevel gear II (2-29) is rotatably connected with the fixed bearing seat (2-32), the shaft-mounted bevel gear II (2-29) is meshed with a bevel gear II (2-33), the bevel gear II (2-33) is meshed with the shaft-mounted bevel gear (2-24), communicating channels I (2-34) are arranged on the bevel gear II (2-33) and a rotating shaft (2-4), the stepped pipe (2-28) is rotatably connected with the bevel gear II (2-33), a heat exchange channel I (35) and a heat exchange channel I (2-34) is connected with a heat exchange channel I (35), the connection channel I (2-35) and the heat exchange hole (2-36) are arranged on the rotary table (2-5), the stepped hole (2-37) is arranged on the machine body (2-3), the stepped hole (2-37) is connected with the stepped rod (2-23) in a sliding way, the spring (2-38) is sleeved on the stepped rod (2-23), the air outlet one-way valve (2-39) is arranged in the ejection channel (2-10), the ejection channel (2-10) is communicated with the communication channel II (2-40), the communication channel II (2-40) is arranged on the rainproof conical disc (2-9), the sliding cavity (2-41) is arranged on the buffer seat (2-14), the reset spring (2-42) is arranged in the sliding cavity (2-41), the sliding cavity (2-41) is communicated with the connection pipe (2-13), the sliding cavity (2-41) is connected with the hollow shaft (2-8) in a sliding way, the sliding cavity (2-41) is communicated with the air inlet pipe (2-17), the handle (2-6) is connected with the handle (2-6), the handle (2-6) is provided with the handle (2-6) and the handle (16) and the handle is provided with the handle (16), the limiting head sliding groove (2-45) is arranged on the rotary table (2-5), the reset spring I (2-46) is arranged in the limiting head sliding groove (2-45), the reset spring I (2-46) is connected with the limiting head (2-43) with the handle, the semicircular bulge I (2-47) is connected with the hollow support (2-11), the communicating channel II (2-40) is communicated with the connecting pipe (2-13), the screw (2-7) is in threaded connection with the threaded hole (1-3), and the heat exchange hole (2-36) is communicated with the exhaust hole (1-2).

2. The wireless intelligent omni-directional monitoring camera according to claim 1, characterized in that: the number of the air outlet one-way valves (2-39) is four.