CN113375027B - Pan-tilt rotating optical zooming face recognition monitoring ball machine - Google Patents

Abstract

The invention relates to a tripod head rotating optical zooming face recognition monitoring dome camera, which comprises a monitoring dome camera main body, a heat dissipation anti-fogging mechanism and a cleaning mechanism, wherein the heat dissipation anti-fogging mechanism is arranged in an inner cavity of the monitoring dome camera main body, the cleaning mechanism is arranged on the lower surface of the monitoring dome camera main body, the heat dissipation anti-fogging mechanism comprises a transfer case, the upper surface of the transfer case is communicated with two air inlet pipes, dehumidifying layers are fixedly arranged in the two air inlet pipes, and a first air inlet fan is fixedly arranged at the top of the inner cavity of the transfer case. This rotatory optical zoom face identification's of cloud platform control ball machine is equipped with the heat dissipation through the inner chamber of control ball machine main part and prevents the fog mechanism, when control ball machine main part work and production of heat, the fog mechanism work is prevented in the heat dissipation this moment to inhale the outside air, will monitor the steam discharge of ball machine main part inner chamber, through the air and the outside air exchange that make control ball machine main part inner chamber, take the steam out, realize radiating effect.

Description

Pan-tilt rotating optical zooming face recognition monitoring ball machine

Technical Field

The invention relates to the technical field of dome cameras, in particular to a monitoring dome camera with a rotating tripod head, an optical zooming and face recognition function.

Background

The ball machine is called a ball camera, is a representative of modern television monitoring development, integrates multiple functions of a color integrated camera, a tripod head, a decoder, a protective cover and the like, is convenient to install, simple to use and powerful in function, is widely applied to monitoring in an open area, has the characteristics of small size, attractive appearance, powerful function, convenience in installation, simplicity in use, easiness in maintenance and the like, and is also called a 'quick ball' or 'ball machine' by people in a popular way.

In daily production and life, a monitoring ball machine is used in a place where the monitoring ball machine is needed, but the existing monitoring ball machine is inconvenient to use.

Present control ball machine is when using, inside can the generate heat, and present control ball machine structure is generally comparatively compact, and often does not possess heat abstractor, and the control ball machine uses under the higher condition of temperature for a long time, can influence its life, simultaneously when ambient temperature is lower, because inside and outside the control ball machine have the difference in temperature, can make the surface of control ball machine safety cover produce the fog, influence the use of control ball machine, the control ball machine uses the back for a long time simultaneously, the surface is infected with dust debris easily, and current control ball machine generally clears up through the scraper blade when cleaing away, the effect of cleaing away is relatively poor, the surface still has the part not clear away, influence the control ball machine's control.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a monitoring ball machine with a rotary tripod head and an optical zoom for face recognition, which has the advantages of heat dissipation, fog prevention, good surface cleaning effect and the like, and solves the problems that the existing monitoring ball machine does not have a heat dissipation mechanism and a defogging mechanism, and meanwhile, the use of the monitoring ball machine is influenced and the service life of the monitoring ball machine is influenced due to poor surface cleaning.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a rotatory optical zoom face identification's of cloud platform control ball machine, includes control ball machine main part, heat dissipation and prevents fogging mechanism and clearance mechanism, the inner chamber of control ball machine main part is equipped with heat dissipation and prevents fogging mechanism, the lower surface of control ball machine main part is equipped with clearance mechanism.

The heat dissipation and anti-fogging mechanism comprises a transfer case, the upper surface of the transfer case is communicated with two air inlet pipes, dehumidification layers are fixedly arranged in the two air inlet pipes, a first air inlet fan is fixedly arranged at the top of an inner cavity of the transfer case, two first through pipes which penetrate through the inner cavity of the transfer case and extend to the outside of the transfer case are fixedly arranged in the inner cavity of the transfer case, two second through pipes which penetrate through the inner cavity of the transfer case and extend to the outside of the transfer case and are positioned below the two first through pipes are fixedly arranged in the inner cavity of the transfer case, second air inlet fans are fixedly arranged in the inner cavities of the two second through pipes, two air guide plates are fixedly connected to the inner cavity of the transfer case, two three-way pipes are communicated with the inner cavity of the transfer case through air pipes, and two opposite surfaces of the two three-way pipes are communicated with first air outlet pipes, two the looks of first outlet duct is from the face and all runs through the lateral wall of control ball machine main part and extends to the surface parallel and level with control ball machine main part, two the preceding surface of three-way pipe all communicates has the second outlet duct, two the second outlet duct all runs through the diapire of control ball machine main part and extends to the lower surface parallel and level with control ball machine main part, and the mouth of pipe of two second outlet ducts is the slope form, and corresponds with the preceding surface of safety cover, the equal fixed mounting in surface of intake pipe, first outlet duct and second outlet duct has the control valve, equal fixed mounting has the dust screen, two in intake pipe, first outlet duct and the second outlet duct the equal fixed mounting in second through-tube inner chamber has the heater strip that is located two second air inlet fan opposite faces.

Clearance mechanism includes the containing box, the inner chamber swing joint of containing box has quantity to be two and runs through the montant that extends to the containing box outside, two the equal fixed mounting of upper surface of montant has first gear, two the equal fixed mounting of surface of montant has first cleaning brush, the right side the lower fixed surface of montant installs first bevel gear, the inner chamber bottom swing joint of containing box has the horizontal pole that is located two montants belows, the external fixed surface of horizontal pole installs the second bevel gear with first bevel gear meshing, the external fixed surface of horizontal pole installs the second cleaning brush that is located the second bevel gear left.

Further, the inner chamber fixed mounting of control ball machine main part has the motor, the output shaft department fixed mounting of motor has the second gear, the inner chamber bottom swing joint of control ball machine main part has the annular rack with second gear meshing.

Further, the lower fixed surface of annular rack installs and runs through and extends to the safety cover of control ball machine main part below, the inner chamber fixed mounting of control ball machine main part has and runs through and extends to the outside surveillance camera head that just is located the safety cover of control ball machine main part, the last fixed surface of control ball machine main part installs the support.

Further, the annular rack is an annular rack with teeth arranged on the inner side and the outer side, the inner side of the annular rack is meshed with the second gear, the outer side of the annular rack is meshed with the two first gears, and the annular rack rotates at the bottom of the inner cavity of the monitoring ball machine main body.

Furthermore, the connection relation of the protective cover and the monitoring ball machine main body is a rotary connection, and the outer side of the protective cover is attached to the containing box.

Further, the transfer case passes through the inner chamber wall fixed connection of dead lever and control ball machine main part, and transfer case inner chamber divide into two upper and lower inner chambers, two the one end of intake pipe runs through and extends to the last inner chamber of transfer case, and the other end all runs through the lateral wall of control ball machine main part and extends to the surface parallel and level with control ball machine main part.

Further, two first siphunculus looks abscission face and the inner chamber intercommunication of control ball machine main part, cavity intercommunication on opposite face and the transfer case, two second siphunculus looks abscission face and the inner chamber intercommunication of control ball machine main part, opposite face and the lower inner chamber intercommunication of transfer case, two the induced air board slope is installed in the lower inner chamber of transfer case.

Furthermore, two the relation of connection of montant and containing box is the rotation and is connected, and all runs through and extend to the inner chamber and the first gear fixed connection of control ball machine main part to be connected for rotating with the relation of connection of control ball machine main part.

Furthermore, the containing box is U-shaped and has an opening at the inner side, the containing box is fixedly arranged on the lower surface of the main body of the monitoring ball machine, and the connection relationship between the cross rod and the containing box is in rotating connection.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

1. the monitoring ball machine with the tripod head rotating optical zooming face recognition function comprises a monitoring ball machine main body, wherein a heat dissipation anti-fogging mechanism is arranged in an inner cavity of the monitoring ball machine main body, when the monitoring ball machine main body works and generates heat, the heat dissipation anti-fogging mechanism works and sucks in external air to discharge hot air in the inner cavity of the monitoring ball machine main body, the hot air is taken out by exchanging the air in the inner cavity of the monitoring ball machine main body with the external air, so that the heat dissipation effect is realized, when fog is generated on the outer surface of a protective cover, the heat dissipation anti-fogging mechanism does not discharge the hot air from two sides of the monitoring ball machine main body, but discharges the hot air while blowing to the outer surface of the protective cover, the discharged hot air can heat the front surface of the protective cover, so that the fog is evaporated, the temperature of the protective cover is ensured, the internal and external temperature difference is not too large, the subsequent fog cannot be generated again, and when the external temperature is too low, the hot air blown out by the heat dissipation anti-fogging mechanism can heat the hot air is heated, the hot air temperature blown to the outer surface of the protective cover can not be too low, so that the defogging effect can not be achieved, and the purposes of heat dissipation and fogging prevention are achieved.

2. The monitoring ball machine with the tripod head rotating optical zooming face recognition is characterized in that a cleaning mechanism is arranged on the lower surface of the monitoring ball machine main body, when the outer surface of the protective cover needs to be cleaned, the motor works at the moment to drive the second gear fixedly connected with the motor to rotate, and when the second gear rotates, the annular rack meshed with the second gear is driven to rotate, because the lower surface of the annular rack is fixedly provided with the protective cover, and the outer side and the inner side of the annular rack are both provided with teeth, and the teeth at the outer side are meshed with the parts of the cleaning mechanism, so that the annular rack can drive the protective cover to rotate when rotating, and can also drive the parts of the cleaning mechanism to rotate, so that the three cleaning brushes in the cleaning mechanism rotate, the outer surface of the protective cover is cleaned, the protective cover can also rotate, the rotating speed is different, the cleaning effect is further improved, and the purpose of good surface cleaning effect is achieved.

Drawings

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of the transfer case of the present invention;

FIG. 4 is a cross-sectional view of the storage case of the present invention;

fig. 5 is a top view of the ring rack of the present invention.

In the figure: the monitoring ball machine comprises a monitoring ball machine main body 1, a heat dissipation and anti-fogging mechanism 2, a 21 transfer box, a 22 air inlet pipe, a 23 dehumidification layer, a 24 first air inlet fan, a 25 first through pipe, a 26 second through pipe, a 27 second air inlet fan, a 28 air guide plate, a 29 three-way pipe, a 210 first air outlet pipe, a 211 second air outlet pipe, a 212 control valve, a 213 dustproof net, 214 heating wires, a 3 cleaning mechanism, a 31 containing box, a 32 vertical rod, a 33 first gear, a 34 first cleaning brush, a 35 first bevel gear, a 36 cross rod, a 37 second bevel gear, a 38 second cleaning brush, a 4 motor, a 5 second gear, a 6 annular rack, a 7 protective cover, an 8 monitoring camera and a 9 support.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, 2, 4 and 5, in this embodiment, a tripod head rotation optical zoom face recognition monitoring dome camera includes a monitoring dome camera main body 1, a heat dissipation anti-fogging mechanism 2 and a cleaning mechanism 3, the inner cavity of the monitoring dome camera main body 1 is provided with the heat dissipation anti-fogging mechanism 2, the lower surface of the monitoring dome camera main body 1 is provided with the cleaning mechanism 3, the inner cavity of the monitoring dome camera main body 1 is fixedly provided with a motor 4, an output shaft of the motor 4 is fixedly provided with a second gear 5, the bottom of the inner cavity of the monitoring dome camera main body 1 is movably connected with an annular rack 6 which is engaged with the second gear 5 and is provided with teeth on both inner and outer sides, the annular rack 6 rotates at the bottom of the inner cavity of the monitoring dome camera main body 1, the inner side of the annular rack 6 is engaged with the second gear 5, the lower surface of the annular rack 6 is fixedly provided with a protective cover 7 which penetrates and extends to the lower side of the monitoring dome camera main body 1, the protective cover 7 is rotatably connected with the monitoring dome camera main body 1, drive second gear 5 through 4 work of motor and rotate, drive the safety cover 7 rotation of annular rack 6 and annular rack 6 bottom, the inner chamber fixed mounting of control ball machine main part 1 has the surveillance camera head 8 that runs through and extend to 1 outside of control ball machine main part and be located safety cover 7, and the last fixed surface of control ball machine main part 1 installs support 9, installs control ball machine main part 1 through support 9.

It should be noted that the top of the monitoring camera 8 penetrates through the annular rack 6 and is fixedly connected with the inner cavity of the monitoring ball machine main body 1, and the monitoring camera 8 is a camera with optical zooming and face recognition functions.

Referring to fig. 2-3, in order to achieve the purpose of heat dissipation and anti-fogging, the heat dissipation and anti-fogging mechanism 2 in the embodiment includes a transfer case 21 fixedly connected to the inner cavity wall of the monitoring ball machine main body 1 through a fixing rod, and the inner cavity of the transfer case 21 is divided into an upper inner cavity and a lower inner cavity, the upper surface of the transfer case 21 is communicated with two air inlet pipes 22, the other ends of the air inlet pipes penetrate through the side wall of the monitoring ball machine main body 1 and extend to be flush with the outer surface of the monitoring ball machine main body 1, the two air inlet pipes 22 are communicated with the upper inner cavity of the transfer case 21, a dehumidification layer 23 is fixedly installed in each of the two air inlet pipes 22, the air inlet pipes 22 are passages through which outside air enters, the dehumidification layer 23 dehumidifies the entering air to prevent the air entering the inner cavity of the transfer case 21 from containing a large amount of moisture to cause corrosion of components in the inner cavity of the monitoring ball machine main body 1, a first air inlet fan 24 is fixedly installed at the top of the transfer case 21, the outside air is sucked through the two air inlet pipes 22 by the work of the first air inlet fan 24, the upper inner cavity of the transfer case 21 is fixedly provided with two first through pipes 25 which penetrate through and extend to the outside of the transfer case 21, the two first through pipes 25 are communicated with the inner cavity of the monitoring ball machine main body 1 from the separated surface, the opposite surfaces are communicated with the upper inner cavity of the transfer case 21, the inner cavity of the transfer case 21 is fixedly provided with two second through pipes 26 which penetrate through and extend to the outside of the transfer case 21 and are positioned below the two first through pipes 25, the two second through pipes 26 are communicated with the inner cavity of the monitoring ball machine main body 1 from the separated surface, the opposite surfaces are communicated with the lower inner cavity of the transfer case 21, the inner cavities of the two second through pipes 26 are fixedly provided with two second air inlet fans 27, the hot air of the monitoring ball machine main body 1 is sucked into the lower inner cavity of the transfer case 21 by the work of the two second air inlet fans 27, the inner cavity of the transfer case 21 is fixedly connected with two air guide plates 28 which are obliquely arranged, the bottom of the transit box 21 is communicated with two three-way pipes 29 through air pipes, the separated surfaces of the two three-way pipes 29 are communicated with first air outlet pipes 210, the separated surfaces of the two first air outlet pipes 210 penetrate through the side wall of the monitoring ball machine main body 1 and extend to be flush with the outer surface of the monitoring ball machine main body 1, the front surfaces of the two three-way pipes 29 are communicated with second air outlet pipes 211, the two second air outlet pipes 211 penetrate through the bottom wall of the monitoring ball machine main body 1 and extend to be flush with the lower surface of the monitoring ball machine main body 1, the pipe orifices of the two second air outlet pipes 211 are inclined and correspond to the front surface of the protective cover 7, when hot air is discharged from the pipe orifices of the second air outlet pipes 211, the hot air can be blown to the outer surface of the protective cover 7, the control valves 212 are fixedly arranged on the outer surfaces of the air inlet pipe 22, the first air outlet pipes 210 and the second air outlet pipes 211, the opening and closing of the air inlet pipe 22, the first air outlet pipes 210 and the second air outlet pipes 211 are controlled by the control valves 212, equal fixed mounting has dust screen 213 in intake pipe 22, first outlet duct 210 and the second outlet duct 211, and dust screen 213 plays dirt-proof effect, and two equal fixed mounting in second siphunculus 26 inner chambers have the heater strip 214 that is located two second air inlet fan 27 opposite faces, can heat exhaust steam through heater strip 214.

Referring to fig. 2, 4 and 5, in order to achieve the purpose of good surface cleaning effect, the cleaning mechanism 3 in this embodiment includes a storage box 31 fixedly mounted on the lower surface of the monitoring ball machine main body 1, the storage box 31 is U-shaped and has an opening on the inner side, the inner cavity of the storage box 31 is rotatably connected with two vertical rods 32 which penetrate and extend to the outside of the storage box 31, the tops of the two vertical rods 32 penetrate and extend to the inner cavity of the monitoring ball machine main body 1 and are fixedly connected with a first gear 33, the connection relationship between the vertical rods 32 and the monitoring ball machine main body 1 is rotatably connected, the two first gears 33 are engaged with the outer side of the circular rack 6, the outer surfaces of the two vertical rods 32 are fixedly mounted with a first cleaning brush 34, the lower surface of the right vertical rod 32 is fixedly mounted with a first bevel gear 35, the bottom of the inner cavity of the storage box 31 is rotatably connected with a cross rod 36 located below the two vertical rods 32, a second bevel gear 37 engaged with the first bevel gear 35 is fixedly mounted on the outer surface of the cross rod 36, a second cleaning brush 38 positioned on the left side of the second bevel gear 37 is fixedly mounted on the outer surface of the cross rod 36, long bristles are fixedly mounted on the outer surface of the first cleaning brush 34 and the outer surface of the second cleaning brush 38, when the vertical rod 32 rotates, the cross rod 36 is driven to rotate through the rotation of the first bevel gear 35 and the second bevel gear 37, and at this time, the two first cleaning brushes 34 and the second cleaning brush 38 rotate to clean the protective cover 7.

The working principle of the above embodiment is as follows:

(1) the first air inlet fan 24 works, external air is sucked in through the two air inlet pipes 22, the dust screen 213 can block dust in the air, the dehumidifying layer 23 absorbs moisture in the air, the dedusted and dehumidified air finally enters the transfer box 21 and enters the inner cavity of the monitoring ball machine main body 1 through the two first through pipes 25, then the second air inlet fans 27 in the two second through pipes 26 work to suck air in the monitoring ball machine main body 1 and transport the air into the two three-way pipes 29, at the moment, the two second air outlet pipes 211 are closed through the control valves 212 on the outer surfaces of the second air outlet pipes 211, hot air entering the three-way pipes 29 is finally discharged through the two first air outlet pipes 210, the hot air in the inner cavity of the monitoring ball machine main body 1 is exchanged with the external air to carry the hot air out, the heat dissipation effect is realized, when fog is generated on the outer surface of the protective cover 7, two first outlet ducts 210 are closed through the control valve 212 of first outlet duct 210 surface, the control valve 212 of second outlet duct 211 surface opens two second outlet ducts 211, because the mouth of pipe department slope of two second outlet ducts 211, and correspond with the front surface of safety cover 7, so when the steam that produces discharges through two second outlet ducts 211, can heat up the front surface of safety cover 7, make fog evaporated, guarantee safety cover 7's temperature simultaneously, guarantee that the inside and outside difference in temperature can not be too big, follow-up can not be once more fogged, when external temperature is low excessively simultaneously, can heat through heater strip 214, make the hot-blast temperature of blowing to safety cover 7 surface can not low, thereby can't reach the effect of defogging, the purpose of heat dissipation and anti-fogging has been realized.

(2) The motor 4 works to drive the second gear 5 to rotate to drive the annular rack 6 to rotate, the annular rack 6 drives the protective cover 7 to rotate when rotating, the two first gears 33 are driven to rotate, the two vertical rods 32 are driven to rotate when the two first gears 33 rotate, the two first cleaning brushes 34 are driven to rotate to clean the side surfaces of the protective cover 7, meanwhile, the first bevel gear 35 is fixedly arranged on the outer surface of the right vertical rod 32, the first bevel gear 35 is meshed with the second bevel gear 37, and the second bevel gear 37 is fixedly arranged on the outer surface of the transverse rod 36, so when the right vertical rod 32 rotates, the transverse rod 36 is driven to rotate, the second cleaning brush 38 is driven to rotate to clean the bottom of the protective cover 7, meanwhile, the protective cover 7 is cleaned by the rotation of the two first cleaning brushes 34 and the second cleaning brush 38, the protective cover 7 also rotates, and the rotating speeds are different, further improving the cleaning effect and realizing the purpose of good surface cleaning effect.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a rotatory optical face identification's of zooming control ball machine of cloud platform, includes control ball machine main part (1), heat dissipation and prevents fog mechanism (2) and clearance mechanism (3), its characterized in that: the inner cavity of the monitoring dome camera main body (1) is provided with a heat dissipation anti-fogging mechanism (2), and the lower surface of the monitoring dome camera main body (1) is provided with a cleaning mechanism (3);

the heat dissipation anti-fogging mechanism (2) comprises a transfer case (21), the upper surface of the transfer case (21) is communicated with two air inlet pipes (22), two dehumidification layers (23) are fixedly mounted in the air inlet pipes (22), a first air inlet fan (24) is fixedly mounted at the top of an inner cavity of the transfer case (21), two first through pipes (25) are fixedly mounted in the inner cavity of the transfer case (21), two second through pipes (26) are fixedly mounted in the inner cavity of the transfer case (21), extend to the outside of the transfer case (21) and are located below the two first through pipes (25), two second air inlet fans (27) are fixedly mounted in the inner cavity of the second through pipes (26), and two air guide plates (28) are fixedly connected to the inner cavity of the transfer case (21), the bottom of the transfer box (21) is communicated with two three-way pipes (29), the two three-way pipes (29) are communicated with the inner cavity of the transfer box (21) through air pipes, the separated surfaces of the two three-way pipes (29) are communicated with first air outlet pipes (210), the separated surfaces of the two first air outlet pipes (210) penetrate through the side wall of the monitoring ball machine main body (1) and extend to be flush with the outer surface of the monitoring ball machine main body (1), the front surfaces of the two three-way pipes (29) are communicated with second air outlet pipes (211), the two second air outlet pipes (211) penetrate through the bottom wall of the monitoring ball machine main body (1) and extend to be flush with the lower surface of the monitoring ball machine main body (1), pipe openings of the two second air outlet pipes (211) are inclined and correspond to the front surface of the protective cover (7), and control valves (212) are fixedly arranged on the outer surfaces of the air inlet pipe (22), the first air outlet pipes (210) and the second air outlet pipes (211), dust screens (213) are fixedly arranged in the air inlet pipe (22), the first air outlet pipe (210) and the second air outlet pipe (211), and heating wires (214) positioned on opposite surfaces of the two second air inlet fans (27) are fixedly arranged in inner cavities of the two second through pipes (26);

clearance mechanism (3) are including containing box (31), the inner chamber swing joint of containing box (31) has quantity to be two and run through to extend to containing box (31) outside montant (32), two the equal fixed mounting of upper surface of montant (32) has first gear (33), two the equal fixed mounting of surface of montant (32) has first cleaning brush (34), the right side the lower fixed surface of montant (32) installs first bevel gear (35), the inner chamber bottom swing joint of containing box (31) has horizontal pole (36) that are located two montants (32) below, the outer fixed surface of horizontal pole (36) installs second bevel gear (37) with first bevel gear (35) meshing, the outer fixed surface of horizontal pole (36) installs and is located the left second cleaning brush (38) of second bevel gear (37).

2. The monitoring ball machine for pan-tilt-zoom-based face recognition according to claim 1, characterized in that: the inner chamber fixed mounting of control ball machine main part (1) has motor (4), the output shaft department fixed mounting of motor (4) has second gear (5), the inner chamber bottom swing joint of control ball machine main part (1) has annular rack (6) with second gear (5) meshing.

3. The monitoring ball machine for pan-tilt-zoom-based face recognition according to claim 2, characterized in that: the lower fixed surface of annular rack (6) installs and runs through and extend to safety cover (7) of control ball machine main part (1) below, the inner chamber fixed mounting of control ball machine main part (1) has and runs through and extends to the outside surveillance camera head (8) that just is located safety cover (7) of control ball machine main part (1), the last fixed surface of control ball machine main part (1) installs support (9).

4. The monitoring ball machine for pan-tilt-zoom-based face recognition according to claim 2, characterized in that: the annular rack (6) is an annular rack (6) with teeth on the inner side and the outer side, the inner side of the annular rack is meshed with the second gear (5), the outer side of the annular rack is meshed with the two first gears (33), and the annular rack (6) rotates at the bottom of the inner cavity of the monitoring ball machine main body (1).

5. The monitoring ball machine of claim 3, wherein the monitoring ball machine comprises: the protective cover (7) is connected with the monitoring ball machine main body (1) in a rotating mode, and the outer side of the protective cover (7) is attached to the containing box (31).

6. The monitoring ball machine for pan-tilt-zoom-based face recognition according to claim 1, characterized in that: transfer case (21) inner chamber wall fixed connection through dead lever and control ball machine main part (1), and transfer case (21) inner chamber divide into two upper and lower inner chambers, two the last inner chamber that runs through and extend to transfer case (21) of the one end of intake pipe (22), the other end all runs through the lateral wall of control ball machine main part (1) and extends to the surface parallel and level with control ball machine main part (1).

7. The monitoring ball machine for pan-tilt-zoom-based face recognition according to claim 1, characterized in that: two first siphunculus (25) are separated from the inner chamber intercommunication of face and control ball machine main part (1), and inner chamber intercommunication, two on opposite face and transfer case (21) second siphunculus (26) are separated from the inner chamber intercommunication of face and control ball machine main part (1), and the lower inner chamber intercommunication of opposite face and transfer case (21), two induced air board (28) slope is installed in the lower inner chamber of transfer case (21).

8. The monitoring ball machine for pan-tilt-rotation optical zooming face recognition according to claim 1, characterized in that: two the relation of connection of montant (32) and containing box (31) is the rotation and is connected, and all runs through and extend to the inner chamber and first gear (33) fixed connection of control ball machine main part (1) to be connected for rotating with the relation of connection of control ball machine main part (1).

9. The monitoring ball machine for pan-tilt-zoom-based face recognition according to claim 1, characterized in that: the storage box (31) is U-shaped and is provided with an opening at the inner side, the storage box (31) is fixedly arranged on the lower surface of the monitoring ball machine main body (1), and the connection relation between the cross rod (36) and the storage box (31) is in rotating connection.

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