Monitoring system installation device and method with short time consumption
Technical Field
The invention relates to the technical field of monitoring and installing devices, in particular to a monitoring system installing device and a monitoring system installing method with short time consumption.
Background
Monitoring device, can carry out the monitoring operation of making a video recording all weather to the effective monitoring area in place, according to the difference of monitoring area topography, monitoring device installs outdoor exposing sometimes, install the inside at building sometimes, outdoor the exposing possesses comparatively abundant sunshine usually, accessible photoelectric conversion effect turns into the electric energy with solar radiation's light energy, provide working power supply for monitoring device, reduce the control cost, but building's inside illumination is obstructed, photoelectric conversion structure is difficult to imitate, but for the installation convenient, monitoring device adopts the integral structure usually, it is troublesome to bring for the installation work under the different topography environment.
The existing monitoring installation device has the defects that:
1. the comparison document CN109855055A discloses a LED lamp mounting device stable based on gravity, which comprises a telescopic rod, a telescopic rod sleeve, an anti-slip sleeve, a fixer connecting seat and a bulb fixing structure, wherein the LED lamp mounting device is combined with a bulb converter through a fixed grabbing stabilizer, when an LED bulb is picked up and mounted, an operator inclines and holds the mounting device in a hand way, a bulb fixing claw is vertical to the ground, the operator can quickly align the bulb on the bulb fixing claw with a lamp holder, the situation that the operator needs to vertically hold the mounting device to stand below the lamp holder for operation is avoided, the operator looks up to observe the mounting position of the lamp holder greatly, the fatigue of the neck caused by the LED lamp mounting is reduced, the alignment speed is increased, and the situation that the bulb is collided and damaged due to the fact that the arm shakes due to long-time holding is also avoided; meanwhile, the new LED bulb can be directly installed after the old bulb is taken down through the bulb converter, the installation operation time is shortened, and the work efficiency of the LED lamp installation is improved;
2. the invention discloses a phase-change heat-storage solar photovoltaic photo-thermal flat plate collector, which comprises a collector shell, a heat insulation layer arranged in the collector shell, a PCM phase-change heat storage plate array arranged on the top surface of the heat insulation layer, a collector plate core runner pipe arranged on the top surface of the PCM phase-change heat storage plate array, a packaged photovoltaic cell piece arranged on the top surface of the collector plate core runner pipe, and a transparent cover plate arranged on the top surface of the packaged photovoltaic cell piece, wherein the transparent cover plate is arranged at an opening at the top of the collector shell and seals the collector plate core runner pipe, the heat insulation layer, the PCM phase-change heat storage plate array and the packaged photovoltaic cell piece in a cavity of the collector shell, the PCM phase-change heat storage plate array comprises a first phase-change heat storage plate array and a second phase-change heat storage plate array, and the first phase-change heat storage plate array absorbs heat of a heat absorption plate in daytime, the effect of improving the efficiency of the battery is realized; the second phase change heat storage plate array emits heat at night to realize the function of preventing the heat collector from freezing, but the effective illumination time of the device is limited due to the lack of a structure for effectively changing the deflection angle of the photoelectric conversion device, and the photoelectric conversion efficiency of the device is not high;
3. the comparison document CN110635398A discloses an installation device and an installation method of an air gap lightning arrester, and the installation device comprises a handheld rod, a wire clamping mechanism arranged at the bottom end of the handheld rod and used for clamping a split conductor, a tray arranged on the handheld rod and used for lifting the lightning arrester, an insulating rope arranged on the tray, a fixing rope arranged on the handheld rod and used for temporarily fixing the lightning arrester, and scale marks arranged on the handheld rod and used for measuring the distance between the bottom end of the lightning arrester and the bottom end of the handheld rod. The invention provides a mounting device and a mounting method of an air gap lightning arrester, which have high mounting efficiency, but when the device is mounted, the device lacks a corresponding positioning device, so that the device cannot be fixed and the mounting height can not be adjusted.
Disclosure of Invention
The invention aims to provide a monitoring system installation device and a monitoring system installation method which are short in time consumption, so as to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a monitoring system installation device with short consumed time and an installation method thereof comprise a photovoltaic battery box, a connecting rod, a telescopic rod, an installation cover and an embedded positioning plate, wherein the installation cover is of a hollow cylindrical structure, a disc is fixed at the top of the installation cover, four groups of jacks are arranged on the surface of the top of the disc, the depth of each jack is smaller than the thickness of the disc, a second threaded hole is arranged at the position of the center of the inner circle of the disc in a penetrating manner, a splitting rod is arranged in the disc in a penetrating manner through the second threaded hole, threads are arranged on the bottom surface and the inner wall of the splitting rod in a surrounding manner, a hole groove is arranged in the splitting rod, threads are arranged on the inner wall of the hole groove, a first threaded hole is arranged at the center of the inner bottom wall of the photovoltaic battery box in a penetrating manner, a solid connecting rod is arranged in the photovoltaic battery box in a penetrating manner through the first threaded hole, and threads are arranged on the bottom surface of the connecting rod, the bottom of connecting rod is through the inner wall connection of screw thread with the split pole, the inner wall of installation cover is fixed with the roof, the bottom welding of roof has the gomphosis locating plate, the inside of gomphosis locating plate is equipped with the spout, the inside of gomphosis locating plate has the safety cover through spout slidable mounting, two sets of electric slide bar and stock are installed through the axle piece to the bottom of photovoltaic battery case, and the stock is located electric slide bar's rear, electric slide bar's bottom sliding connection has the telescopic link, and the bottom of telescopic link and stock all is connected through the top gomphosis of jack with the disc.
Preferably, the top welding of connecting rod has the cross handle, and the area size of cross handle is greater than the area size of a screw hole, and annular handle is installed to the bottom of split pole, and the area size of annular handle is greater than No. two screw holes.
Preferably, the surface of telescopic link and electric slide bar all encircles and installs photosensitive induction ware, and photosensitive induction ware passes through wire and electric slide bar electric connection, and the inside of telescopic link is equipped with the cavity, and the cavity is located the latter half of telescopic link, and the time-recorder has been placed to the inside of cavity, and the time-recorder passes through wire electric connection with electric slide bar.
Preferably, the bottom of one side surface of the gomphosis locating plate, which is far away from the spout, is provided with a shaft, the internally mounted of the shaft is provided with a shaft rod, the temporal part of the shaft is provided with a folding rod through the shaft rod, the internally mounted of the folding rod is provided with three groups of shaft pieces and two groups of shaft pieces, the inside of the gomphosis locating plate is provided with two groups of longitudinally arranged gomphosis openings in a penetrating manner, and the position of the lower gomphosis opening corresponds to the mounting position of the shaft piece.
Preferably, the supporting blocks are installed at four corners of the inner bottom wall of the photovoltaic battery box, the spongy cushion is placed at the top of the supporting blocks, the size of the spongy cushion is the same as the area size of the inner wall of the photovoltaic battery box, the photovoltaic battery panel is installed on the inner wall of the photovoltaic battery box, the rain shielding cover is installed on the top of the photovoltaic battery box in an embedded mode, and the surface of the rain shielding cover is designed to be a slope.
Preferably, two sets of montants are installed at the top of disc, and the inside short boom that runs through and install in the top of montant, and the installation direction and the montant of short boom are perpendicular, and the bull stick is all installed through the bearing at the both ends of short boom, and the inside of bearing is equipped with the aperture, and the installation direction of bull stick is parallel with the installation direction of montant, and the fixed plate is installed at the top of bull stick, and the through bolt is all installed in the inside four corners of fixed plate.
Preferably, the surface of the mounting cover is coated with a corrosion-resistant coating, the inner wall of the mounting cover is provided with an interlayer, and a heat-insulating layer is arranged in the interlayer.
Preferably, two sets of gomphosis strips are installed to the outer wall of safety cover, and camera lens is installed to the inside roof of safety cover, and annular ventilative screen panel is installed to the bottom of safety cover, and the outer loop of ventilative screen panel is laminated with the inner wall of safety cover, and the inner ring surface mounting of ventilative screen panel has the transparent frame, and the transparent frame is located camera lens's below.
Preferably, compression spring is installed to the bottom of roof, and compression spring is located the top of safety cover, and the inside central point department of roof is equipped with No. three screw holes, and No. three screw holes and No. two screw holes, the centre of a circle of a screw hole are located same axis, and the three diameter is the same.
Preferably, the working steps of the device are as follows:
s1, when the device is used for installing a monitoring system, whether the photovoltaic cell box needs to be installed inside the device or outside the exposed building is selected according to whether the device needs to be installed inside the building or outside the exposed building, if the device is installed outside the exposed building, the photovoltaic cell box can be installed inside the device to guarantee power supply of the device, the power cost is reduced, if the device needs to be installed inside the building, the lighting inside the building is shielded by the building, the precondition of photovoltaic power generation is influenced, the photovoltaic cell box does not need to be installed, the installation volume of the device is reduced, and the device is convenient to use;
s2, if a photovoltaic battery box needs to be installed, the connecting rod penetrates through the first threaded hole in the bottom inside the photovoltaic battery box, so that the bottom of the cross handle is tightly attached to the top surface of the bottom wall of the photovoltaic battery box, and in view of the fact that the area size of the cross handle is larger than that of the first threaded hole, the connecting rod can be guaranteed not to slide down from the inside of the first threaded hole;
s3, pushing the top plate into the upper position inside the mounting cover, then embedding the embedding strip on the surface of the protective cover into a sliding groove inside the embedding positioning plate at the bottom of the top plate, rotating the folding rod by using the first shaft to enable the folding rod to be close to the surface of the embedding positioning plate, then folding the folding rod into four sections by using the second shaft to form a rectangular frame, inserting the tail end of the folding rod, which is far away from the first shaft, into an embedding opening inside the embedding positioning plate, and further supporting the embedding strip slidably mounted inside the sliding groove to avoid the sliding of the embedding strip and the protective cover;
s4, the splitting rod sequentially penetrates through the third threaded hole and the second threaded hole, the hollow splitting rod is aligned to the connecting rod in the photovoltaic battery box at the solid penetrating position, and then the hollow splitting rod is connected and fixed through the threads arranged on the inner wall of the splitting rod and the threads surrounding the bottom surface of the connecting rod, so that the photovoltaic battery box can be connected with the mounting cover and the protective cover;
s5, in the process of photoelectric conversion of the photovoltaic cell box, whether there is sunshine in weather can be judged through the photosensitive induction device, whether be used for controlling the electric slide bar to need carry out the lift operation, when weather is clear, because the motion trail of the sun in one day is the semicircular pitch arc, therefore the illumination intensity of the front side of the telescopic link is greater than the illumination intensity at the back side of the telescopic link in the morning, the electric slide bar slides downwards at the moment, incline the photovoltaic cell box into the slope structure, make the illumination area the biggest, and then guarantee the photoelectric conversion efficiency of the photovoltaic cell panel, meanwhile, the timer starts to count down, after a few hours, the sun illumination direction is opposite, the electric slide bar that passes through wire electric connection control at this moment moves upwards, make the photovoltaic cell box form the slope structure once more, increase the illumination area.
Compared with the prior art, the invention has the beneficial effects that:
1. the connecting rod is arranged, when the photovoltaic battery box needs to be flexibly disassembled and assembled, the connecting rod can penetrate through the first threaded hole at the bottom inside the photovoltaic battery box, so that the bottom of the cross handle is tightly attached to the top surface of the bottom wall of the photovoltaic battery box, the connecting rod can be ensured not to slide from the inside of the first threaded hole in view of the fact that the area size of the cross handle is larger than that of the first threaded hole, then the top plate is slid into the inside of the mounting cover, the second threaded hole is aligned with the third threaded hole, the split rod sequentially penetrates through the third threaded hole and the second threaded hole, the hollow split rod is aligned with the connecting rod inside the photovoltaic battery box at the solid penetrating position, and after the threads surrounded by the bottom surface of the connecting rod are connected and fixed with the threads arranged on the inner wall of the split rod, the connection of the photovoltaic battery box, the mounting cover and the protective cover can be realized, and because the area size of the annular handle at the bottom of the splitting rod is larger than the area sizes of the second threaded hole and the third threaded hole, the situation that the splitting rod slips does not need to be worried about in the use process, and the stable connection of the photovoltaic battery box, the mounting cover and the protective cover is ensured.
2. The invention can judge whether the weather has sunlight or not by installing the telescopic link and the photosensitive sensor, is used for controlling whether the electric sliding rod needs to be lifted or not, when the weather is fine, because the illumination intensity on the front side of the telescopic link is greater than the illumination intensity on the back side of the telescopic link in the morning, the electric sliding rod slides downwards at the moment, the photovoltaic battery box is inclined into a slope structure, so that the illumination area is maximum, the photoelectric conversion efficiency of the photovoltaic battery panel is further ensured, meanwhile, the timer starts to count down, after the counting down is ended, the illumination direction of the sunlight is converted along with the motion track, the illumination direction at the moment is opposite to the illumination direction in the morning, the electric sliding rod controlled by the electric connection of the lead moves upwards, so that the photovoltaic battery box forms an inclined structure again, the illumination area is increased, and the effect that the photovoltaic battery box is inclined and changed along with the change of the illumination track is realized, the effective photoelectric conversion time is prolonged, and the photoelectric conversion efficiency of the device is further improved.
3. According to the invention, the embedded positioning plate is installed, the folding rod is folded into four sections by using the second shaft piece to form the rectangular frame, the tail end of the folding rod far away from the first shaft piece is inserted into the embedded opening in the embedded positioning plate, so that the embedded strip slidably installed in the chute is supported, the embedded strip and the protective cover are prevented from sliding off, and the embedded positioning plate can be assisted to realize the positioning height effect on the protective cover through the selection of the vertically arranged embedded openings, so that the purpose of adjusting the camera shooting height is realized.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of a photovoltaic cell case according to the present invention;
FIG. 3 is a schematic view of the connecting rod mounting structure of the present invention;
FIG. 4 is a schematic view of the telescopic rod of the present invention;
FIG. 5 is a schematic view of a disk structure of the present invention;
FIG. 6 is a schematic view of the mounting cup structure of the present invention;
FIG. 7 is a schematic view of the protective cover of the present invention;
FIG. 8 is a schematic view of the internal cross-section of the mounting cup of the present invention;
FIG. 9 is a partial schematic view of the positioning plate according to the present invention;
FIG. 10 is a schematic view of the structure at A in FIG. 8 according to the present invention.
In the figure: 1. a photovoltaic cell box; 101. a support block; 102. a first threaded opening; 103. a sponge cushion; 104. a photovoltaic cell panel; 105. a rain shield; 2. a connecting rod; 201. a cross handle; 202. disassembling the rod; 203. a hole groove; 204. an annular handle; 3. a telescopic rod; 301. an electric slide bar; 302. a photosensitive sensor; 303. a cavity; 304. a timer; 4. a disc; 401. a second threaded opening; 402. a vertical rod; 403. a rotating rod; 404. a fixing plate; 405. a jack; 5. mounting a cover; 501. a corrosion-resistant coating; 502. a thermal insulation layer; 6. a protective cover; 601. a tabling strip; 602. a breathable net cover; 603. a transparent frame; 604. a camera lens; 7. a top plate; 701. a third threaded hole; 702. a compression spring; 8. embedding a positioning plate; 801. a folding bar; 802. a first shaft member; 803. a second shaft member; 804. an embedding opening; 9. a chute; 10. a long rod.
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. 1-10, an embodiment of the present invention is shown: a short-time-consuming monitoring system installation device and an installation method thereof comprise a photovoltaic battery box 1, a connecting rod 2, a telescopic rod 3, an installation cover 5 and an embedding positioning plate 8, wherein the installation cover 5 is of a hollow cylindrical structure, the hollow installation cover 5 can provide space for installation of a protection cover 6 and can provide isolation protection for the protection cover 6 to prevent the protection cover 6 from being impacted by the outside and the like to go to the sea, so that the use safety of an internal camera lens 604 is protected, a disc 4 is fixed at the top of the installation cover 5 and can provide conditional support for deflection installation of the device at a corresponding angle, four groups of jacks 405 are arranged on the top surface of the disc 4, the depth of the jacks 405 is smaller than the thickness of the disc 4 and provides support for embedding and fixing the bottoms of the telescopic rod 3 and a long rod 10, a second threaded hole 401 penetrates through the position of the center of the circle inside of the disc 4, and the second threaded hole 401 can strengthen the connection effect between the device and a split rod 202 through threads arranged on the inner wall, and provides space support for the through installation of the splitting rod 202, the splitting rod 202 is installed through the through hole 401 of the second thread in the disc 4, and the bottom surface and the inner wall of the splitting rod 202 are all provided with threads in a surrounding manner, the inside of the splitting rod 202 is provided with a hole groove 203, the inner wall of the hole groove 203 is provided with threads, the splitting rod 202 can be connected with the connecting rod 2 extending to the lower part of the photovoltaic battery box 1 in an embedding manner through the hole groove 203 with threads in the inside, so that the auxiliary device can be flexibly disassembled and assembled with the photovoltaic battery box 1, the central position of the inner bottom wall of the photovoltaic battery box 1 is provided with the first thread hole 102 in a penetrating manner to provide hole support for the through installation of the connecting rod 2, the inside of the photovoltaic battery box 1 is provided with the solid connecting rod 2 in a penetrating manner through the first thread hole 102, the bottom surface of the connecting rod 2 is provided with threads, the bottom of the connecting rod 2 is connected with the inner wall of the splitting rod 202 through threads, the connecting rod 2 is flexibly detached from the detachable rod 202, the auxiliary device realizes corresponding flexible detachment, the installation time of the device is shortened, the combined installation of the device is facilitated, the inner wall of the installation cover 5 is fixedly provided with the top plate 7 which provides an installation position for the installation of the embedded positioning plate 8, the bottom of the top plate 7 is welded with the embedded positioning plate 8, the protective cover 6 embedded in the sliding groove 9 can be positioned through the arrangement of the internal folding rod 801 and the embedded opening 804, the camera monitoring height of the monitoring device can be adjusted while the stability of the monitoring device is ensured, the sliding groove 9 is arranged in the embedded positioning plate 8 to provide conditional support for the embedded connection of the protective cover 6, the protective cover 6 is slidably installed in the embedded positioning plate 8 through the sliding groove 9 to provide an installation position for the installation of the internal camera lens 604, the bottom of the photovoltaic battery box 1 is provided with two groups of electric sliding rods 301 and a long rod 10 through a shaft, and stock 10 is located electric slide bar 301's rear, electric slide bar 301 changes through going up and down, can change the high distance between photovoltaic battery case 1 and the telescopic link 3 that its top is connected, thereby make photovoltaic battery case 1 take place to deflect, electric slide bar 301's bottom sliding connection has telescopic link 3, and telescopic link 3 and stock 10's bottom all is connected through jack 405 and disc 4's top gomphosis, stock 10 passes through the axle at top, can realize the deflection of photovoltaic battery case 1 in vertical space with the cooperation of telescopic link 3 that can stretch out and draw back the transform, thereby the effective illumination time of the inside photovoltaic cell board 104 of extension photovoltaic battery case 1.
The welding of connecting rod 2's top has cross handle 201, cross handle 201's area size is greater than the area size of a screw hole 102, annular handle 204 is installed to the bottom of split pole 202, and annular handle 204's area size is greater than No. two screw holes 401, cross handle 201 and annular handle 204 not only can rely on the deviation that stops connecting rod 2 and split pole 202 disengaging gear with the screw hole area size that passes separately, the connection compactness between the device spare part has been strengthened, still can provide the application of force position, make things convenient for connecting rod 2 and split pole 202 to be connected, the rotation during dismantlement is operated, and it is more convenient to use.
Photosensitive sensors 302 are arranged on the surfaces of the telescopic rod 3 and the electric sliding rod 301 in a surrounding mode, the photosensitive sensors 302 are electrically connected with the electric sliding rod 301 through conducting wires, a cavity 303 is arranged inside the telescopic rod 3, the cavity 303 is located on the lower half portion of the telescopic rod 3, a timer 304 is placed inside the cavity 303, the timer 304 is electrically connected with the electric sliding rod 301 through conducting wires, the cavity 303 provides a space for installing and storing the timer 304, whether sunlight exists in the weather can be judged through the photosensitive sensors 302 for controlling whether the electric sliding rod 301 needs to be lifted or not, when the weather is clear, because the illumination intensity of the front side of the telescopic rod 3 is larger than the illumination intensity of the back side of the telescopic rod 3 in the morning, the electric sliding rod 301 slides downwards, the photovoltaic battery box 1 is inclined into a slope structure, the illumination area is the largest, and the photoelectric conversion efficiency of the photovoltaic battery panel 104 is further ensured, meanwhile, the timer 304 starts to count down, after the counting down is ended, the irradiation direction of sunlight is converted along with the movement track, the irradiation direction at the moment is opposite to the irradiation direction in the morning, the electric slide bar 301 controlled by the electric connection of the lead moves upwards, so that the photovoltaic battery box 1 forms an inclined structure again, the irradiation area is increased, the effect that the photovoltaic battery box 1 changes obliquely along with the change of the irradiation track is realized, the effective photoelectric conversion time is prolonged, and the photoelectric conversion efficiency of the device is improved.
The bottom of one side surface of the embedding positioning plate 8 far away from the sliding chute 9 is provided with a first shaft element 802, the inside of the first shaft element 802 is provided with a shaft rod, the temporal part of the first shaft element 802 is provided with a folding rod 801 through the shaft rod, the inside of the folding rod 801 is provided with three groups of second shaft elements 803, the inside of the embedding positioning plate 8 is provided with two groups of longitudinally arranged embedding openings 804 in a penetrating way, the position of the lower embedding opening 804 corresponds to the installation position of the first shaft element 802, after the folding rod 801 is folded into four sections by utilizing the second shaft elements 803 and forms a rectangular frame, the tail end of the folding rod 801 far away from the first shaft element 802 is inserted into the embedding opening 804 inside the embedding positioning plate 8, so as to support the embedding strip 601 which is slidably installed inside the sliding chute 9 and avoid the embedding strip 601 and the protective cover 6 from sliding off, and the embedding positioning height of the protective cover 6 can be realized by the selection of the vertically arranged embedding openings 804, thereby realizing the purpose of adjusting the camera shooting height.
Supporting blocks 101 are arranged at four corners of the inner bottom wall of the photovoltaic cell box 1, a spongy cushion 103 is arranged at the top of the supporting blocks 101, the size of the spongy cushion 103 is the same as the area size of the inner wall of the photovoltaic cell box 1, a photovoltaic cell panel 104 is arranged on the inner wall of the photovoltaic cell box 1, a rain shielding cover 105 is embedded and arranged at the top of the photovoltaic cell box 1, and the surface of the rain shield 105 is designed as a slope, the supporting block 101 has a certain height, the sponge mat 103 placed at the top can be lifted, the distance between the top of the cross handle 201 and the bottom of the sponge mat 103 is increased, the phenomenon that the sponge mat 103 which is blocked by buffering is directly punctured by the thicker thickness of the cross handle 201 and then pokes the surface of the photovoltaic cell panel 104 to influence the normal use of the photovoltaic cell panel 104 is avoided, and the rain shade 105 of slope design then can provide rain-proof protection for photovoltaic cell case 1, avoids outside rainwater to get into the inside circuit safety that influences photovoltaic cell board 104 of photovoltaic cell case 1.
Two sets of montants 402 are installed at the top of disc 4, the inside run-through in top of montant 402 installs the quarter butt, the installation direction of quarter butt is perpendicular with montant 402, bull stick 403 is all installed through the bearing at the both ends of quarter butt, the inside of bearing is equipped with the aperture, the installation direction of bull stick 403 is parallel with the installation direction of montant 402, fixed plate 404 is installed at the top of bull stick 403, through bolt is all installed at the inside four corners of fixed plate 404, when fixing the device in appointed position department, connect the inside through bolt of fixed plate 404 at the mounted position, according to the influence of installation topography and surrounding building, the deflection angle between adjustment bull stick 403 and the montant 402, in order to guarantee that camera lens 604 can possess the best angle of making a video recording, inject the bolt into the inside aperture of bearing afterwards, realize the angle is fixed, can accomplish the installation of device.
The surface of installation cover 5 scribbles corrosion-resistant coating 501, the inner wall of installation cover 5 is equipped with the intermediate layer, interbedded internally mounted has insulating layer 502, corrosion-resistant coating 501 can strengthen the corrosion resisting property of installation cover 5 surface, thereby the life of extension installation cover 5, the setting of insulating layer 502 can avoid outside high temperature to transmit to the installation cover 5 in, and then influence the operational environment temperature of inside safety cover 6 and camera lens 604.
Two sets of gomphosis strips 601 are installed to the outer wall of safety cover 6, camera lens 604 is installed to the inside roof of safety cover 6, annular ventilative screen panel 602 is installed to the bottom of safety cover 6, the outer loop of ventilative screen panel 602 and the inner wall laminating of safety cover 6, the inner ring surface mounting of ventilative screen panel 602 has transparent frame 603, and transparent frame 603 is located the below of camera lens 604, gomphosis strip 601 is connected through gomphosis with spout 9, can realize the quick connection of safety cover 6 and roof 7, and the possibility of the inside circulation of air of safety cover 6 has then been guaranteed in setting up of ventilative screen panel 602, make things convenient for inside camera lens 604 when carrying out the surveillance video recording, still normally carry out ventilation and heat dissipation, the installation of transparent frame 603 then carries out corresponding surveillance camera for camera lens 604 and provides corresponding frame, make things convenient for it to carry out the surveillance camera operation.
The compression spring 702 is installed at the bottom of the top plate 7, the compression spring 702 is located above the protection cover 6, the third threaded hole 701 is formed in the center of the inner portion of the top plate 7, the circle centers of the third threaded hole 701, the second threaded hole 401 and the first threaded hole 102 are located on the same axis, the diameters of the third threaded hole 701, the second threaded hole 401 and the first threaded hole 102 are the same, the third threaded hole 701 is formed, the disassembling rod 202 can conveniently penetrate through the third threaded hole 701, the third threaded hole can be connected with the connecting rod 2, flexible disassembling and assembling of the photovoltaic battery box 1 and the installation cover 5 are achieved, a buffering area can be formed between the top of the protection cover 6 and the bottom of the top plate 7 due to the arrangement of the compression spring 702, the fact that the annular handle 204 at the bottom of the third threaded hole 701 scratches the top of the protection cover 6 is avoided, and further damage to the camera lens 604 on the top of the inner wall of the protection cover 6 is avoided.
The working steps of the device are as follows:
s1, when the device is used for installing a monitoring system, whether the photovoltaic cell box 1 needs to be installed inside the device or outside the exposed building is selected according to whether the device needs to be installed inside the building or outside the exposed building, if the device is installed outside the exposed building, the photovoltaic cell box 1 can be installed inside the device to ensure the power supply of the device, the power cost is reduced, if the device needs to be installed inside the building, the photovoltaic cell box 1 does not need to be installed, the installation volume of the device is reduced, and the device is convenient to use because the lighting inside the building is shielded by the building and the precondition of photovoltaic power generation is influenced;
s2, if the photovoltaic cell box 1 needs to be installed, the connecting rod 2 penetrates through the first threaded hole 102 in the bottom inside the photovoltaic cell box 1, so that the bottom of the cross handle 201 is tightly attached to the top surface of the bottom wall of the photovoltaic cell box 1, and as the area size of the cross handle 201 is larger than that of the first threaded hole 102, the connecting rod 2 can be ensured not to slide down from the inside of the first threaded hole 102, then the spongy cushion 103 is laid on the surface of the supporting block 101, then the photovoltaic cell panel 104 is laid on the top of the spongy cushion 103, and finally the rain shield 105 is closed to seal the photovoltaic cell box 1;
s3, pushing the top plate 7 into the upper position inside the mounting cover 5, then fitting the fitting strip 601 on the surface of the protection cover 6 into the sliding slot 9 inside the fitting positioning plate 8 at the bottom of the top plate 7, rotating the folding rod 801 by using the first shaft 802 to make it close to the surface of the fitting positioning plate 8, then folding the folding rod 801 into four sections by using the second shaft 803 to form a rectangular frame, inserting the tail end of the folding rod 801 far from the first shaft 802 into the fitting opening 804 inside the fitting positioning plate 8, and further supporting the fitting strip 601 slidably mounted inside the sliding slot 9, so as to avoid the sliding of the fitting strip 601 and the protection cover 6;
s4, the splitting rod 202 sequentially penetrates through the third threaded hole 701 and the second threaded hole 401, the hollow splitting rod 202 is aligned to the connecting rod 2 inside the photovoltaic battery box 1 at the solid penetrating position, and then the hollow splitting rod 202 is connected and fixed through the threads arranged on the inner wall of the splitting rod 202 and the threads surrounding the bottom surface of the connecting rod 2, so that the photovoltaic battery box 1 can be connected with the mounting cover 5 and the protection cover 6, in addition, because the area size of the annular handle 204 at the bottom of the splitting rod 202 is larger than the area sizes of the second threaded hole 401 and the third threaded hole 701, the situation that the splitting rod 202 slips off does not need to be worried about in the use process, the stable connection of the photovoltaic battery box 1, the mounting cover 5 and the protection cover 6 is ensured, and then the mounting and fixing of the whole device can be realized through the vertical rod 402 at the top of the disc 4 and the through bolt inside the fixing plate 404;
s5, in the process of photoelectric conversion of the photovoltaic cell box 1, whether sunlight exists in the weather can be judged through the photosensitive sensor 302, and the control method is used for controlling whether the electric sliding rod 301 needs to be lifted or not, when the weather is clear, the movement track of the sun in one day is a semicircular arc line, because the illumination intensity of the front face of the telescopic rod 3 is greater than the illumination intensity of the back face of the telescopic rod 3 in the morning, at the moment, the electric sliding rod 301 slides downwards, the photovoltaic cell box 1 is inclined into a slope structure, the illumination area is the largest, the photoelectric conversion efficiency of the photovoltaic cell panel 104 is guaranteed, meanwhile, the timer 304 starts counting down, after hours, the sunlight illumination direction is opposite, at the moment, the electric sliding rod 301 controlled through the electric connection of the conducting wire is moved upwards, the photovoltaic cell box 1 forms an inclined structure again, and the illumination area is enlarged.
The working principle is as follows: when the device is used for installing a monitoring system, according to whether the device is required to be installed inside a building or exposed outdoors, if the photovoltaic cell box 1 is required to be installed, the connecting rod 2 penetrates through the first threaded hole 102 at the bottom inside the photovoltaic cell box 1, so that the bottom of the cross-shaped handle 201 is tightly attached to the top surface of the bottom wall of the photovoltaic cell box 1, then the sponge pad 103 is laid on the surface of the supporting block 101, then the photovoltaic cell panel 104 is laid on the top of the sponge pad 103, finally the rain shielding cover 105 is closed, the photovoltaic cell box 1 is sealed, then the top plate 7 is pushed into the upper position inside the installation cover 5, then the embedding strip 601 at the surface of the protection cover 6 is embedded into the sliding groove 9 inside the embedding positioning plate 8 at the bottom of the top plate 7, the folding rod 801 is rotated by the first shaft 802 to be close to the surface of the embedding positioning plate 8, then the folding rod 801 is folded into four sections by the second shaft 803 to form a rectangular frame, the tail end of the folding rod 801 far away from the first shaft piece 802 is inserted into the embedding opening 804 in the embedding positioning plate 8, so that the embedding strip 601 which is slidably installed in the sliding groove 9 is supported, the embedding strip 601 and the protective cover 6 are prevented from sliding off, then the splitting rod 202 sequentially penetrates through the third threaded opening 701 and the second threaded opening 401, the hollow splitting rod 202 is aligned to the connecting rod 2 in the photovoltaic battery box 1 at the solid penetrating position, after the connection and fixation are realized by utilizing the threads surrounding the bottom surface of the connecting rod 2 and the threads arranged on the inner wall of the splitting rod 202, the connection of the photovoltaic battery box 1, the mounting cover 5 and the protective cover 6 can be realized, then, the mounting and fixation of the whole device can be realized by utilizing the penetrating bolts in the top vertical rod 402 of the disc 4 and the fixing plate 404, in the process of photoelectric conversion of the photovoltaic battery box 1, whether the weather has sunlight or not can be judged by the photosensitive sensor 302, whether be used for controlling electric sliding rod 301 and need carry out the lifting operation, the illumination intensity of 3 fronts of telescopic link is greater than the illumination intensity at the telescopic link 3 backs in the morning, electric sliding rod 301 slides down this moment, become the slope structure with photovoltaic battery case 1 slope, make the illumination area the biggest, and then guarantee photovoltaic cell panel 104's photoelectric conversion efficiency, meanwhile, timer 304 starts to begin the countdown, after the countdown terminates, the illumination direction of sunlight takes place the conversion along with the movement track, illumination direction at this moment is opposite with the illumination direction in the morning, electric sliding rod 301 rebound through wire electric connection control, make photovoltaic battery case 1 form the slope structure once more, increase the illumination area.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.