Security protection camera wind energy bimodulus pressure boost prevent wind husky protection box
Technical Field
The invention relates to the field of security equipment, in particular to a wind-energy dual-mode boosting wind-sand-prevention protection box for a security camera.
Background
The camera is one of the most important equipment of security protection, can carry out the record to illegal action through the control to the region, be convenient for fix a position illegal personnel fast, and can frighten and be about to illegal personnel, the desert area is comparatively barren place, its personnel are comparatively rare, illegal criminal action is more, consequently, install the better management in desert security protection camera help desert area, nevertheless because the sand blown by wind is great more in the desert, it is higher to the camera lens wearing and tearing of camera, lead to the camera fuzzy easily, consequently, need protect the camera.
The existing camera wind sand protection is that the security camera is usually placed in a protection box, and one side of the protection box is provided with transparent glass to protect the camera and prevent the camera from working, but the transparent glass is continuously worn under the effect of the wind sand to cause video blurring, and the glass is added in front of the lens to cause the phenomenon of reflection and ghost images of the video, so that the security camera shooting effect is poor.
Disclosure of Invention
The invention aims to solve the defects that in the prior art, the video is fuzzy due to the fact that the glass partition of a protection box is also worn by wind and sand, and the video double image is fuzzy due to reflection and refraction of glass, and provides a wind energy double-mode supercharging wind and sand prevention protection box for a security camera.
In order to achieve the purpose, the invention adopts the following technical scheme:
a security camera wind energy dual-mode pressurization wind and sand prevention protection box comprises a box body, wherein a laminate is arranged on one side wall of the box body, a plurality of dual-mode motors are symmetrically arranged on the laminate, a dual-mode gear is arranged on a motor shaft of each dual-mode motor, a dual-mode control box is arranged on the laminate and positioned in the centers of the dual-mode motors, and a dual-mode battery is arranged on the bottom wall of the box body and positioned under the laminate;
the wind vane type wind power generation box is characterized in that an arched sand-proof filter screen is embedded in the upper side wall of the box body, a power shaft tube is inserted in the arched sand-proof filter screen in a rotating mode, a wind cup is fixedly sleeved on the outer side wall of the power shaft tube, the lower end of the power shaft tube extends into the box body and is provided with a wind pressure gear, the wind pressure gear is meshed with a plurality of double-mode gears, a wind direction rod is inserted in the power shaft tube in a rotating mode, a wind vane is installed at the upper end of the wind direction rod, and the lower end of the wind direction rod extends into the box body and is inserted in a double-mode control box in a rotating mode;
the utility model discloses a gas collecting device, including plywood, gas collecting channel, gas guide pipe, inclined plane lens groove, gas guide pipe, inclined plane lens groove, gas guide pipe, inclined plane lens groove, gas guide pipe, inclined plane, gas guide pipe, inclined plane, gas guide pipe, inclined plane, gas guide pipe, inclined plane, gas guide pipe, inclined plane, and the gas guide pipe are arranged in the corresponding to be arranged on the side wall.
Preferably, the wind direction pole is located one section in the dual mode control box and installs the trigger lever, the brush piece is installed to the one end that the wind direction pole was kept away from to the trigger lever, install arc charging piece and arc piece of discharging in the dual mode control box respectively, install two insulating connection pieces jointly on the opposite face of arc charging piece and arc piece of discharging respectively.
Preferably, the arc charges the piece and the arc piece of discharging is two arc pieces that the radian equals the arc length inequality, and the arc charges the piece and the arc piece of discharging constitutes the ring through two insulating connection pieces, and the brush piece sliding contact arc piece of discharging.
Preferably, the radian of the arc discharge sheet is equal to the maximum critical sand inlet angle of the inclined lens groove.
Preferably, the wind pressure gear includes the ring gear, a plurality of flabellums are evenly installed to the interior rampart of ring gear, and is a plurality of the axle sleeve is installed jointly to the one end that the ring gear was kept away from to the flabellum, and the power shaft pipe is fixed to be inserted and is established in the axle sleeve.
The invention has the following beneficial effects:
1. make the power central siphon rotate through utilizing the wind cup to be blown by wind, thereby make the wind pressure gear rotatory and rotate through the flabellum, inhale the box body with outside air through bow-shaped sand prevention filter screen, make pressure increase in the box body, it is downthehole with the atmospheric pressure of the high atmospheric pressure discharge in the box body to rethread gas collecting channel and air duct, make the downthehole blowout of atmospheric pressure from the atmospheric pressure in inclined plane lens groove, and a plurality of atmospheric pressure holes form the cyclone and spout outside inclined plane lens groove, it gets into inclined plane lens inslot to block the sand blown by the wind, thereby the wearing and tearing of sand blown by the wind to the camera lens have been prevented, and need not to adopt glass to cut off before the camera lens, make the video present more clearly.
2. Make the wind vane rotate the adjustment position and drive the wind direction pole rotation according to the wind direction through utilizing wind vane and wind direction pole, thereby make trigger bar and brush piece slide on arc charging piece and arc discharging piece, and the radian of arc discharging piece equals the biggest critical angle of sand feeding of inclined plane lens groove, then only when the wind direction of sand wind blows to inclined plane lens groove, the wind vane drives the wind direction pole and rotates, make brush piece and arc discharging piece contact, make bimodulus battery discharge drive bimodulus motor rotate, increase the rotational speed of wind pressure gear through bimodulus gear, then increase the speed of inclined plane lens groove department atmospheric pressure hole blowout air current, further prevent the influence of sand wind direct blowing to the camera lens, increase the reliability.
In conclusion, the contact condition of the electric brush piece, the arc-shaped charging piece and the arc-shaped discharging piece is adjusted through the wind vane and the wind direction rod according to the wind direction, so that the double-mode control box controls the charging and discharging work of the double-mode battery and the double-mode motor, the low-pressure air injection and sand prevention energy storage is realized when non-wind-sand direct blowing is realized, the energy is released and the pressurized air injection and sand prevention are realized when wind-sand direct blowing is realized, the problem of video blurring caused by lens abrasion and glass abrasion is solved, and double images cannot occur.
Drawings
Fig. 1 is a schematic structural diagram of a security camera wind energy dual-mode supercharging wind-sand-prevention protection box provided by the invention;
FIG. 2 is an enlarged view of a wind pressure gear part of a security camera wind energy dual-mode supercharging wind-sand-prevention protection box provided by the invention;
FIG. 3 is a partial enlarged view of a dual-mode control box of the security camera wind energy dual-mode pressurizing wind-sand-prevention protection box provided by the invention;
fig. 4 is a schematic diagram of a maximum critical sand inlet angle of the security camera wind energy dual-mode boosting wind-sand-prevention protection box provided by the invention.
In the figure: the wind vane comprises a box body 1, 11 laminates, 12 inclined lens grooves, 13 arch sand-proof filter screens, 14 air pressure holes, a 2 dual-mode motor, 21 dual-mode gears, a 3 dual-mode control box, 31 arc charging sheets, 32 arc discharging sheets, 33 insulating connecting sheets, 4 dual-mode batteries, 5 wind cups, 51 power shaft tubes, 6 wind vanes, 61 wind direction rods, 62 trigger rods, 63 electric brush sheets, 7 wind pressure gears, 71 gear rings, 72 fan blades, 73 shaft sleeves, 8 gas collecting hoods and 81 air guide pipes.
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.
Referring to fig. 1-4, a security camera wind energy dual-mode pressurization wind-sand prevention protection box comprises a box body 1, wherein a laminate 11 is installed on one side wall of the box body 1, a plurality of dual-mode motors 2 are symmetrically installed on the laminate 11, a dual-mode gear 21 is installed on a motor shaft of each dual-mode motor 2, a dual-mode control box 3 is installed on the laminate 11 and located in the center of the plurality of dual-mode motors 2, and a dual-mode battery 4 is installed on the bottom wall of the box body 1 and located under the laminate 11;
an arched sand-proof filter screen 13 is embedded in the upper side wall of the box body 1, a power shaft pipe 51 is rotatably inserted into the arched sand-proof filter screen 13, a wind cup 5 is fixedly sleeved on the outer side wall of the power shaft pipe 51, the lower end of the power shaft pipe 51 extends into the box body 1 and is provided with a wind pressure gear 7, the wind pressure gear 7 is meshed with the plurality of dual-mode gears 21, a wind direction rod 61 is rotatably inserted into the power shaft pipe 51, a wind vane 6 is installed at the upper end of the wind direction rod 61, and the lower end of the wind direction rod 61 extends into the box body 1 and is rotatably inserted into the dual-mode control box 3;
the arched sand-proof filter screen 13 can prevent sand from entering the box body 1 and can enable external air flow to enter the box body 1, the wind cup 5 enables the power shaft tube 51 to rotate under the blowing of wind power, so that the wind pressure gear 7 rotates, the double-mode gear 21 rotates, the motor shaft of the double-mode motor 2 rotates, the wind vane 6 rotates to the windward position under the action of directional wind power, and the wind direction rod 61 rotates by a corresponding angle;
an inclined plane lens groove 12 is formed in one side wall, away from the layer plate 11, of the box body 1, a plurality of air pressure holes 14 are uniformly formed in the groove wall of the inclined plane lens groove 12, each air pressure hole 14 extends along the side wall of the box body 1 to be communicated with the inside of the box body 1, a gas collecting hood 8 is installed between the layer plate 11 and the inclined plane lens groove 12 in the box body 1, a plurality of air guide pipes 81 are inserted into one side, away from the layer plate 11, of the gas collecting hood 8, and one ends, away from the gas collecting hood 8, of the air guide pipes 81 are respectively inserted into the air pressure holes 14 in a corresponding and sealed mode;
the air current is in getting into box body 1 through bow-shaped sand prevention filter screen 13 from the outside, increases the pressure in the box body 1 for air current discharges to the atmospheric pressure hole 14 along gas collecting channel 8 and air duct 81 in the box body 1, then can produce high-pressure draught in inclined plane lens groove 12 department, and a plurality of annular evenly distributed's atmospheric pressure hole 14 produces outside mobile whirl in inclined plane lens groove 12, makes in the sand can't get into inclined plane lens groove 12, can't produce wearing and tearing to the lens promptly.
A trigger rod 62 is installed at one section of the wind direction rod 61 positioned in the dual-mode control box 3, a brush piece 63 is installed at one end of the trigger rod 62 far away from the wind direction rod 61, an arc-shaped charging piece 31 and an arc-shaped discharging piece 32 are respectively installed in the dual-mode control box 3, and two insulating connecting pieces 33 are respectively and commonly installed on the opposite surfaces of the arc-shaped charging piece 31 and the arc-shaped discharging piece 32;
the wind vane 6 rotates the wind lever 61 so that the trigger lever 62 and the brush piece 63 rotate by a corresponding angle around the wind lever 61.
The arc charging piece 31 and the arc discharging piece 32 are two arc pieces with equal radians and unequal arc lengths, the arc charging piece 31 and the arc discharging piece 32 form a circular ring through two insulating connecting pieces 33, and the electric brush piece 63 is in sliding contact with the arc discharging piece 32;
when the brush piece 63 contacts the arc-shaped charging piece 31, the dual-mode motor 2 and the dual-mode battery 4 are in a charging mode, and when the brush piece 63 contacts the arc-shaped discharging piece 32, the dual-mode motor 2 and the dual-mode battery 4 are in a discharging mode, the charging mode can charge and store the dual-mode battery 4, and the discharging mode can release the electric energy stored in the dual-mode battery 4 for the dual-mode motor 2 to use.
The radian of the arc-shaped discharging piece 32 is equal to the maximum critical sand inlet angle of the inclined lens groove 12, when the wind direction is within the maximum critical sand inlet angle, the electric brush piece 63 is in contact with the arc-shaped discharging piece 32, so that the dual-mode battery 4 discharges electricity to supply the dual-mode motor 2 to rotate, the wind pressure gear 7 is driven to rotate rapidly to increase the pressure of the box body 1, the jet speed of the air pressure hole 14 is increased, and the lens interference caused by the positive blowing of wind sand is further avoided.
Wind pressure gear 7 includes ring gear 71, and a plurality of flabellums 72 are evenly installed to ring gear 71's interior rampart, and axle sleeve 73 is installed jointly to the one end that ring gear 71 was kept away from to a plurality of flabellums 72, and power shaft pipe 51 is fixed to be inserted and is established in axle sleeve 73, can be carried outside air to box body 1 in through a plurality of flabellums 72 when wind pressure gear 7 is rotatory.
When the invention is used, when wind blows, the wind direction is not in the maximum critical sand inlet angle range, at this time, the wind sand can not directly enter the inclined plane lens groove 12, the wind power enables the wind vane 6 to drive the wind direction rod 61 to rotate to the windward direction, and enables the wind cup 5 to drive the power shaft tube 51 to continuously rotate, the wind pressure gear 7 continuously rotates and enables the outside air to flow into the box body 1 through the arch-shaped sand-proof filter screen 13 through the plurality of fan blades 72, the pressure in the box body 1 is increased, the high-pressure air flow flows along the air pressure hole 14 through the air collecting hood 8 and the air duct 81 and is sprayed out from the inclined plane lens groove 12 to generate outward rotational flow, sand on the periphery of the surface enters the inclined plane lens groove 12 to abrade the lens, the trigger rod 62 and the electric brush piece 63 rotate a certain angle after the wind direction rod 61 rotates a certain angle, the electric brush piece 63 is in contact with the arc-shaped charging piece 31, so that the dual-mode motor 2 and the battery 4 are in the charging mode, the wind pressure gear 7 drives a motor shaft of the dual-mode motor 2 to rotate through the dual-mode gear 21, so that the dual-mode motor 2 generates electricity and stores the electricity in the dual-mode battery 4;
the wind direction is in the maximum critical sand inlet angle range, at this time, the wind sand can directly enter the inclined plane lens groove 12, the wind vane 6 drives the wind direction rod 61 to rotate to the wind direction windward position in the maximum critical sand inlet angle range, the wind direction rod 61 drives the trigger rod 62 and the electric brush piece 63 to rotate to the arc discharge piece 32 and contact, so that the dual-mode motor 2 and the dual-mode battery 4 are in a discharge state, the dual-mode battery 4 releases the stored electric energy for the dual-mode motor 2 to rotate, the rotating speed of the dual-mode motor 2 is increased, the rotating speed of the wind pressure gear 7 is increased through the dual-mode gear 21, the pressure in the box body 1 is increased, the air flow speed blown out from the air pressure hole 14 in the inclined plane lens groove 12 is faster, and the condition that the wind sand wears on the lens during direct blowing is further avoided.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.