CN116033251B - Camera for monitoring solar energy equipment - Google Patents
Camera for monitoring solar energy equipment Download PDFInfo
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- CN116033251B CN116033251B CN202310146409.3A CN202310146409A CN116033251B CN 116033251 B CN116033251 B CN 116033251B CN 202310146409 A CN202310146409 A CN 202310146409A CN 116033251 B CN116033251 B CN 116033251B
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- 238000012544 monitoring process Methods 0.000 title abstract description 6
- 239000011521 glass Substances 0.000 claims abstract description 60
- 239000012528 membrane Substances 0.000 claims abstract description 5
- 229920001971 elastomer Polymers 0.000 claims description 11
- 238000005452 bending Methods 0.000 claims description 10
- 238000009825 accumulation Methods 0.000 claims description 7
- 229920001973 fluoroelastomer Polymers 0.000 claims description 6
- 239000000463 material Substances 0.000 claims description 4
- 238000002834 transmittance Methods 0.000 abstract description 8
- 238000001914 filtration Methods 0.000 abstract description 6
- 230000005540 biological transmission Effects 0.000 abstract description 5
- 238000009423 ventilation Methods 0.000 description 13
- 230000000694 effects Effects 0.000 description 4
- 230000008901 benefit Effects 0.000 description 3
- 230000015572 biosynthetic process Effects 0.000 description 3
- 238000010438 heat treatment Methods 0.000 description 3
- 238000009434 installation Methods 0.000 description 3
- 238000012423 maintenance Methods 0.000 description 3
- 230000006835 compression Effects 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 239000012535 impurity Substances 0.000 description 2
- 230000000149 penetrating effect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 1
- 238000002309 gasification Methods 0.000 description 1
- 238000003384 imaging method Methods 0.000 description 1
- 230000035515 penetration Effects 0.000 description 1
- 238000010248 power generation Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Abstract
The invention provides a camera for monitoring a solar device, the camera comprising: movement mounting structure and bard membrane. The movement is provided with a lens for collecting images, and the movement mounting structure is used for fixing the movement. The bard film is arranged on the movement mounting structure and is opposite to the lens, and the lens acquires images through the bard film. The camera further includes: the first glass sheet and the second glass sheet, the bard film is clamped between the first glass sheet and the second glass sheet, and the lens is opposite to the first glass sheet and the second glass sheet. By utilizing the characteristic of the light transmittance of one ten thousandth of the bard film, the bard film is used for filtering most sunlight before the lens, so that the transmission of a light source is reduced, the high temperature generated by long-time focusing of the sunlight inside the camera is reduced, the temperature inside the camera is reduced, the high temperature is prevented from being accumulated inside the camera, the temperature inside the camera is reduced, and the damage to internal devices of the camera caused by the overhigh temperature inside the camera is prevented.
Description
Technical Field
The invention relates to the technical field of camera shooting, in particular to a camera for monitoring solar equipment.
Background
In a solar heat collection power station, sunlight is reflected through a mirror surface and focused on a heat collection tower to generate heat for power generation. And a camera is arranged in the power station, the camera needs to be aligned with the focusing point of the light source at any time, the maximum heat energy angle is judged, and the sunlight mirror is adjusted. At this time, the inside of the camera can absorb a large amount of heat energy, and the inside temperature of the camera is very high, so that the camera is easy to damage.
Disclosure of Invention
The invention provides a camera for monitoring solar equipment, which is used for preventing damage to internal devices of the camera caused by overhigh internal temperature of the camera.
In a first aspect, the present invention provides a camera for monitoring a solar device, the camera comprising: movement, movement mounting structure and bard membrane. The movement is provided with a lens for collecting images, and the movement mounting structure is used for fixing the movement. The bard film is arranged on the movement mounting structure and is opposite to the lens, and the lens acquires images through the bard film. The camera further includes: the first glass sheet and the second glass sheet, the bard film is clamped between the first glass sheet and the second glass sheet, and the lens is opposite to the first glass sheet and the second glass sheet.
In the scheme, the bard film is arranged on the movement mounting structure, so that most of sunlight is filtered by the bard film before a lens by utilizing the characteristic of light transmittance of one ten thousandth of the bard film, the transmission of a light source is reduced, the high temperature generated by long-time focusing of the sunlight in the camera is reduced, the temperature in the camera is reduced, the high temperature is prevented from being accumulated in the camera, the temperature in the camera is reduced, and damage to devices in the camera due to overhigh temperature in the camera is prevented. In the environment that the camera needs to be exposed to special high temperature, high light and high brightness for a long time, the accumulation of light energy is reduced by utilizing the filtering characteristic of the bard film, the damage of high temperature to equipment is prevented, and meanwhile, the precision and the stability of the equipment are improved. The first glass sheet and the second glass sheet are used for clamping the bard film in the middle, so that the flatness of the bard film can be well ensured, and the light transmittance is ensured. And two glass sheets are used to form a clamping device, so that the clamping and fixing functions can be realized on the basis of not changing the original structure, meanwhile, the replacement of the bard film is convenient, and the maintenance cost is reduced. In the special scene that applies the camera of this application to solar thermal power station etc. through the high accuracy of camera, realize controlling the reflector angle, promote heating efficiency.
In a specific embodiment, the movement mounting structure is a movement mounting plate with a bending structure, a first lens hole is formed in the bending structure, and a lens penetrates through the first lens hole, so that the structure is simplified.
In a specific embodiment, the camera further comprises: the shading component is arranged on the movement installation structure and wraps the movement. Through increasing shading subassembly, under the irradiation of strong light source, reduce sunshine entering camera inside, further reduce and accumulate at the camera inside and produce high temperature, prevent simultaneously that light refraction from entering the camera lens influences formation of image, reduce the light leak risk, prevent to produce the facula, promote equipment's precision, reduce the calculated amount of backstage, promote efficiency, increase benefit.
In a specific embodiment, the shade assembly includes: the machine core shading plate, the shading pressing plate and the shading bottom plate. The machine core light shielding plate is arranged on the machine core mounting plate and buckled on the machine core, a second lens hole is formed in the machine core light shielding plate, and a lens penetrates through the second lens hole. The shading pressing plate is attached to the bending structure, a shading barrel is arranged on the shading pressing plate, the shading barrel penetrates through the first lens hole and the second lens hole, and the lens is accommodated in the shading barrel. The shading bottom plate is attached to the shading pressing plate, a third lens hole is formed in the shading bottom plate, and the first glass sheet, the bard film and the second glass sheet are clamped between the shading cylinder and the third lens hole. The periphery of the movement is completely wrapped by the movement light shielding plate, the light shielding barrel is added on the light shielding bottom plate, the lens is wrapped, the risk of entering the lens after light reflection is further reduced, the temperature of the lens can be reduced to a certain extent, sensitive components in the lens are protected, the position of the brightest point can be accurately displayed when the equipment is aligned with a strong light source, the generation of impurity light spots is prevented, background operation is influenced, and the efficiency is reduced.
In a specific embodiment, the first glass sheet is attached to the shading base plate, and a rubber pressing ring is arranged between the second glass sheet and the shading base plate. Through the compression of rubber clamping ring, compress tightly the second glass piece, prevent that the glass piece from rocking, can also block the sunshine after filtering simultaneously and follow the sunshine that refracts in the gap, prevent that light from leaking into the camera lens, influence the formation of image.
In a specific embodiment, the material of the rubber pressing ring is fluororubber, and the fluororubber has the characteristics of high temperature resistance (up to 220 ℃), less volatilization and stable performance, and meets the requirement of working at high temperature.
In a specific embodiment, a vent is provided on a side of the light shielding bottom plate facing away from the light shielding pressing plate. Through setting up the vent, can link up about for fan ventilation forms the circulation in equipment, can reduce the temperature of shading bottom plate department to a certain extent. Because the internal temperature of the camera is higher, the internal temperature difference and the external temperature difference are larger, the camera is easy to fog, and the lens can be prevented from fog through a ventilation circulating channel formed by a ventilation opening.
In a specific embodiment, at least two surrounding ribs are arranged on one side, away from the shading pressing plate, of the shading bottom plate, the at least two surrounding ribs are arranged around the third lens hole, and a vent is formed in a gap between every two adjacent surrounding ribs. At least two surrounding ribs are added on the front edge of the shading bottom plate, the shading effect can be achieved, and sunlight is prevented from accumulating in the cavity of the camera to generate high temperature through refraction and reflection before penetrating through the bard film. And ventilation openings are formed in the gaps between two adjacent surrounding ribs, so that ventilation and shading can be realized by adopting simple structural adjustment, and the compactness and the versatility of the structure are improved.
In a specific embodiment, the shading pressing plate is black towards one side of the machine core, the inner wall of the shading barrel and the inner wall of the shading plate of the machine core, so that the effect of absorbing light is achieved, and reflection and refraction of light in the device can be effectively reduced. The outer wall of core light screen, the one side that shading bottom plate deviate from the shading clamp plate all set up to white, play the effect of refraction light, can refracting sunshine, reduce the accumulation of light energy, reduce the temperature of equipment.
In a specific embodiment, the camera comprises: and a housing accommodating the movement and the movement mounting assembly, the housing having a glass window, and the lens capturing an image through the bard film and the glass window to protect the movement and the bard film.
Drawings
Fig. 1 is an exploded view of a camera according to an embodiment of the present invention;
FIG. 2 is a schematic view of a camera according to an embodiment of the present invention;
fig. 3 is a schematic structural diagram of a movement according to an embodiment of the present invention when the movement is assembled on a movement mounting structure.
Reference numerals:
10-movement 21-first glass sheet 22-second glass sheet 30-movement mounting plate
31-bending structure 41-machine core light shielding plate 42-light shielding pressing plate 421-light shielding barrel
43-shading bottom plate 50-rubber pressing ring 60-surrounding rib 70-ventilation opening
80-housing 81-glazing
Detailed Description
For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
In order to facilitate understanding of the camera provided by the embodiment of the present invention, an application scenario of the camera provided by the embodiment of the present invention will be described first, where the camera is applied to an environment capable of exposing a lens to a specific high temperature, high light and high brightness for a long time. The camera will be described in detail with reference to the accompanying drawings.
Referring to fig. 1 to 3, a camera provided by an embodiment of the present invention includes: cartridge 10, cartridge mounting structure, and a bard film (not shown in the figure). Wherein, the movement 10 has a lens for capturing an image, and the movement mounting structure is used for fixing the movement 10. The bard film is arranged on the movement mounting structure and is opposite to the lens, and the lens acquires images through the bard film. The camera further includes: the first glass sheet 21 and the second glass sheet 22, the bard film is sandwiched between the first glass sheet 21 and the second glass sheet 22, and the lens is located opposite to the first glass sheet 21 and the second glass sheet 22.
In the scheme, the bard film is arranged on the movement mounting structure, so that most of sunlight is filtered by the bard film before a lens by utilizing the characteristic of light transmittance of one ten thousandth of the bard film, the transmission of a light source is reduced, the high temperature generated by long-time focusing of the sunlight in the camera is reduced, the temperature in the camera is reduced, the high temperature is prevented from being accumulated in the camera, the temperature in the camera is reduced, and damage to devices in the camera due to overhigh temperature in the camera is prevented. In the environment that the camera needs to be exposed to special high temperature, high light and high brightness for a long time, the accumulation of light energy is reduced by utilizing the filtering characteristic of the bard film, the damage of high temperature to equipment is prevented, and meanwhile, the precision and the stability of the equipment are improved. The first glass sheet 21 and the second glass sheet 22 sandwich the bard film therebetween, and the glass sheets can well ensure the flatness of the bard film and ensure the light transmittance. And two glass sheets are used to form a clamping device, so that the clamping and fixing functions can be realized on the basis of not changing the original structure, meanwhile, the replacement of the bard film is convenient, and the maintenance cost is reduced. In the special scene that applies the camera of this application to solar thermal power station etc. through the high accuracy of camera, realize controlling the reflector angle, promote heating efficiency. The following describes each of the above structures in detail with reference to the accompanying drawings.
When the movement mounting structure is provided, referring to fig. 1, the movement mounting structure serves as a support structure for fixing the movement, and the movement can be fixed to the housing 80 of the camera. The movement mounting structure may be specifically fixed to the housing 80 by means of threaded connection, clamping connection, or the like, and the movement 10 may be connected to the movement mounting structure by means of threaded connection, clamping connection, or the like. The movement 10 described above has not only a lens for capturing an image but also an image chip or the like as a core device of a video camera.
As shown in fig. 1 and 2, the bard film is disposed on the movement mounting structure and opposite to the lens, and the lens can collect images through the bard film. By installing the bard film on the movement installation structure, the characteristics of the bard film of ten thousandth light transmittance are utilized, most sunlight is filtered by using the bard film before a lens, the transmission of a light source is reduced, the high temperature generated by long-time focusing of the sunlight in the camera is reduced, the temperature in the camera is reduced, the high temperature is prevented from being accumulated in the camera, the temperature in the camera is reduced, and the damage to devices in the camera due to overhigh temperature in the camera is prevented. In the environment that the camera needs to be exposed to special high temperature, high light and high brightness for a long time, the accumulation of light energy is reduced by utilizing the filtering characteristic of the bard film, the damage of high temperature to equipment is prevented, and meanwhile, the precision and the stability of the equipment are improved. In the special scene that applies the core installation component of the camera of this application to solar thermal power station etc., through the high accuracy of camera, realize controlling the reflector angle, promote the efficiency of generating heat.
When the movement mounting structure is specifically provided, various modes can be adopted. One configuration is described as follows by way of example. Referring to fig. 1, the movement mounting structure may be a movement mounting plate 30 having a bending structure 31, a first lens hole is disposed on the bending structure 31, and a lens passes through the first lens hole, so that the structure is simplified.
Referring to fig. 1 to 3, the camera may further include: a shade assembly disposed on the cartridge mounting structure and surrounding the cartridge 10. Through increasing shading subassembly, under the irradiation of strong light source, reduce sunshine entering camera inside, further reduce and accumulate at the camera inside and produce high temperature, prevent simultaneously that light refraction from entering the camera lens influences formation of image, reduce the light leak risk, prevent to produce the facula, promote equipment's precision, reduce the calculated amount of backstage, promote efficiency, increase benefit.
The shade assembly may be provided in a variety of ways, one of which is described by way of example below. Referring to fig. 1 to 3, the light shielding assembly may include: a movement shade 41, a shade pressure plate 42, and a shade bottom plate 43. The movement light shielding plate 41 is disposed on the movement mounting plate 30 and fastened on the movement 10, a second lens hole is disposed on the movement light shielding plate 41, and the lens passes through the second lens hole. The shading pressing plate 42 is attached to the bending structure 31, a shading cylinder 421 is arranged on the shading pressing plate 42, the shading cylinder 421 penetrates through the first lens hole and the second lens hole, and the lens is accommodated in the shading cylinder 421. The light shielding base plate 43 is attached to the light shielding pressure plate 42, a third lens hole is provided in the light shielding base plate 43, and the first glass sheet 21, the bard film, and the second glass sheet 22 are sandwiched between the light shielding tube 421 and the third lens hole. The periphery of the movement 10 is completely wrapped by the movement light shielding plate 41, the light shielding barrel 421 is added on the light shielding bottom plate 43 to wrap the lens, the risk of entering the lens after light reflection is further reduced, the temperature of the lens can be reduced to a certain extent, sensitive components in the lens are protected, the position of the brightest point can be accurately displayed when the equipment is aligned with a strong light source, the generation of impurity light spots is prevented, background operation is influenced, and the efficiency is reduced.
In particular, referring to fig. 1 and 2, when the bard film and the light shielding component are assembled together, the first glass sheet 21 may be attached to the light shielding bottom plate 43, and a rubber pressing ring 50 may be disposed between the second glass sheet 22 and the light shielding pressing plate 42. The second glass sheet 22 is pressed by the compression of the rubber pressing ring 50, so that the glass sheet is prevented from shaking, and meanwhile, the filtered sunlight and the sunlight refracted from the gaps can be blocked, so that light is prevented from leaking into the lens, and imaging is prevented from being influenced. The material of the rubber pressing ring 50 can be fluororubber, and the fluororubber has the characteristics of high temperature resistance (up to 220 ℃), less volatilization and stable performance, and meets the requirement of working at high temperature. Of course, the material of the rubber press ring 50 is not limited to the fluororubber type shown above, but other types of rubber press rings may be used.
Referring to fig. 1 to 3, a vent 70 may be further disposed on a side of the light shielding bottom plate facing away from the light shielding pressing plate, and the vent 70 may be disposed to allow left and right penetration for ventilation of a fan, so as to form a circulation in the apparatus, thereby reducing the temperature of the light shielding bottom plate 43 to a certain extent. Meanwhile, due to the fact that the internal temperature of the camera is high, the temperature difference between the inside and the outside is large, fog is easy to generate, and the lens can be prevented from generating fog through a ventilation circulation channel formed by the ventilation opening 70.
When forming the ventilation opening specifically, referring to fig. 1 to 3, at least two surrounding ribs 60 may be disposed on a side of the light shielding bottom plate 43 facing away from the light shielding pressing plate 42, and the at least two surrounding ribs 60 are disposed around the third lens hole, and the ventilation opening 70 is formed by a gap between two adjacent surrounding ribs 60. At least two surrounding ribs 60 added on the front edge of the shading base plate 43 can play a role of shading, and prevent sunlight from accumulating in the camera cavity to generate high temperature through refraction and reflection before penetrating through the bard film. And by forming the ventilation openings 70 in the gaps between the adjacent two surrounding ribs 60, ventilation and shading can be realized by adopting simple structural adjustment, and the compactness and the versatility of the structure are improved.
In a more preferred embodiment, the shading pressing plate 42 is set to be black on one side of the movement 10, the inner wall of the shading barrel 421 and the inner wall of the movement shading plate 41, so as to play a role of absorbing light, and effectively reduce reflection and refraction of light in the device. Further, the outer wall of the movement light shielding plate 41 and one side of the light shielding bottom plate 43, which is away from the light shielding pressing plate 42, can be set to be white, so that the effect of refracting light is achieved, sunlight can be refracted, accumulation of light energy is reduced, and the temperature of equipment is reduced.
In addition, referring to fig. 1 to 3, the video camera includes: the housing 80 for accommodating the movement 10 and the movement mounting structure may specifically be any housing structure having a hollow cavity therein, and the hollow cavity may specifically be formed in the housing 80 by hollowing, assembling, or the like, to accommodate the movement 10, the movement mounting structure, the bard film, the two glass sheets, or the like. The housing 80 has a glass window 81, and the lens can capture an image through the bard film and the glass window 81.
When the parts are specifically fixed and connected, the fixing modes of all the parts can be all screw-fixed, and the screws need to be cleaned, so that oil stains are prevented from being left, and the lens is polluted by high-temperature gasification.
In the various embodiments shown above, by mounting the bard film on the movement mounting structure, most of sunlight is filtered before the lens by using the bard film with the characteristic of light transmittance of one ten thousandth, the transmission of the light source is reduced, the high temperature generated by long-time focusing of the sunlight inside the camera is reduced, the temperature inside the camera is reduced, the high temperature is prevented from being accumulated inside the camera, and thus the temperature inside the camera is reduced, and damage to devices inside the camera due to the excessively high temperature inside the camera is prevented. In the environment that the camera needs to be exposed to special high temperature, high light and high brightness for a long time, the accumulation of light energy is reduced by utilizing the filtering characteristic of the bard film, the damage of high temperature to equipment is prevented, and meanwhile, the precision and the stability of the equipment are improved. The first glass sheet 21 and the second glass sheet 22 sandwich the bard film therebetween, and the glass sheets can well ensure the flatness of the bard film and ensure the light transmittance. And two glass sheets are used to form a clamping device, so that the clamping and fixing functions can be realized on the basis of not changing the original structure, meanwhile, the replacement of the bard film is convenient, and the maintenance cost is reduced. In the special scene that applies the camera of this application to solar thermal power station etc. through the high accuracy of camera, realize controlling the reflector angle, promote heating efficiency.
The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the scope of the present invention should be included in the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.
Claims (6)
1. A camera, characterized in that the camera is installed in a solar thermal power plant for photographing a thermal tower of the solar thermal power plant, comprising:
a cartridge having a lens for capturing an image;
a movement mounting structure for fixing the movement;
the bard film is arranged on the movement mounting structure and opposite to the lens, and the lens acquires images through the bard film;
a housing having a hollow chamber formed therein for accommodating the movement and a movement mounting structure, the housing having a glass window, the lens capturing an image through the bard film and the glass window;
a first glass sheet and a second glass sheet, the bard film being sandwiched between the first glass sheet and the second glass sheet, the lens being positioned opposite the first glass sheet and the second glass sheet;
the shading component is arranged on the movement mounting structure and wraps the movement;
the movement mounting structure is a movement mounting plate with a bending structure, a first lens hole is formed in the bending structure, and the lens penetrates through the first lens hole;
the shading assembly includes:
the machine core light shielding plate is arranged on the machine core mounting plate and buckled on the machine core, a second lens hole is formed in the machine core light shielding plate, the lens penetrates through the second lens hole, and the periphery of the machine core is completely wrapped by the machine core light shielding plate;
the shading pressing plate is attached to the bending structure, a shading cylinder is arranged on the shading pressing plate, the shading cylinder penetrates through the first lens hole and the second lens hole, and the lens is accommodated in the shading cylinder;
a light shielding bottom plate attached to the light shielding pressing plate, wherein a third lens hole is formed in the light shielding bottom plate, and the first glass sheet, the bard film and the second glass sheet are clamped between the light shielding cylinder and the third lens hole;
at least two surrounding ribs are arranged on one side, away from the shading pressing plate, of the shading bottom plate, and the at least two surrounding ribs are arranged around the third lens hole;
wherein the ribs prevent sunlight from entering the hollow chamber before passing through the bard membrane, the bard membrane reduces sunlight entering the shell, the movement light shielding plate and the light shielding barrel isolate the lens from the hollow cavity, and the light shielding component and the bard membrane reduce high temperature generated by the accumulation of sunlight in the shell.
2. The camera of claim 1, wherein the first glass sheet is attached to the light shielding base plate, and a rubber press ring is disposed between the second glass sheet and the light shielding base plate.
3. The camera of claim 2, wherein the material of the rubber press ring is fluororubber.
4. The camera of claim 1, wherein a vent is provided in a side of the light shielding base plate facing away from the light shielding platen.
5. The camera of claim 4, wherein a gap between two adjacent ribs forms the vent.
6. The camera according to claim 1, wherein a side of the light shielding pressing plate facing the movement, an inner wall of the light shielding cylinder, and an inner wall of the movement light shielding plate are all provided in black;
the outer wall of the core light shielding plate and one side of the light shielding bottom plate, which is away from the light shielding pressing plate, are both white.
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CN202310146409.3A CN116033251B (en) | 2023-02-15 | 2023-02-15 | Camera for monitoring solar energy equipment |
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