CN205581009U - Fluorescent lamp detection device that ages - Google Patents
Fluorescent lamp detection device that ages Download PDFInfo
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- CN205581009U CN205581009U CN201620025429.0U CN201620025429U CN205581009U CN 205581009 U CN205581009 U CN 205581009U CN 201620025429 U CN201620025429 U CN 201620025429U CN 205581009 U CN205581009 U CN 205581009U
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- daylight lamp
- temperature sensor
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- temperature
- detecting device
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Abstract
The utility model discloses a fluorescent lamp detection device that ages, the power distribution box comprises a box body, the box includes fluorescent lamp, blast air cooling device, temperature sensor I, temperature sensor II, sample support and temperature detect switch, temperature detect switch is connected with blast air cooling device, temperature sensor I and temperature sensor II respectively. The utility model discloses a fluorescent lamp detection device that ages can the internal and the sample surface temperature of real -time, accurate control box, reduces the energy consumption, prevents that the sample from taking place the high temperature degradation and the fluorescent tube damages, improves efficiency of software testing.
Description
Technical field
This utility model relates to the technical field of daylight lamp ageing management, particularly belongs to a kind of daylight lamp degradation detecting device.
Background technology
Vehicle body coating directly affects the presentation quality of automobile as the important component part of automobile exterior material, its color, glossiness etc..During automobile uses, vehicle body coating can stand to expose to the weather, and therefore, before formally putting into production, needs to carry out daylight lamp ageing management test.Occurring in that some easy daylight ageing ovens in prior art, this easy light aging test case is easy-to-use, and simple to operate, cost is the cheapest.But fluorescent tube can give out substantial amounts of heat when luminescence, the temperature in proof box can be made to increase, cause sample generation high temperature deterioration and tubes breaks down.In order to solve the problems referred to above, prior art by arranging axial flow blower and air vent in proof box body, to dispel the heat in fluorescent tube and casing, but the energy consumption of the method is big and cannot the temperature in Control experiment case accurately.
Utility model content
The purpose of this utility model is to provide a kind of daylight lamp degradation detecting device for the deficiencies in the prior art, by being respectively mounted in casing is monitored in temperature sensor and the temperature of sample surfaces with sample surfaces in casing, temperature sensor is connected with temperature detect switch (TDS), temperature detect switch (TDS) is connected with blast cooling device, when in temperature sensor monitors to casing or when the temperature of sample surfaces exceedes normal value, temperature detect switch (TDS) will start blast cooling device, to take away with the heat of sample surfaces in casing, reduce temperature, reach real-time, accurately in control chamber body and sample surface temperature, reduce energy consumption, improve testing efficiency.
For achieving the above object, the following technical scheme of this utility model offer:
A kind of daylight lamp degradation detecting device, including casing, described casing includes daylight lamp, blast cooling device, temperature sensor I, temperature sensor II, sample holder and temperature detect switch (TDS), and described temperature detect switch (TDS) is connected with blast cooling device, temperature sensor I and temperature sensor II respectively.
In a preferred embodiment, described daylight lamp is fixedly connected on box inside top.
In a preferred embodiment, described daylight lamp has four, four square settings of daylight lamp.
In a preferred embodiment, described temperature sensor I hangs on box inside top.
In a preferred embodiment, described sample holder is fixedly connected on bottom box inside, and described sample holder is placed sample.
In a preferred embodiment, described temperature sensor II is positioned at sample surface.
In a preferred embodiment, described box inside wall is fixedly connected with blast cooling device.
In a preferred embodiment, described casing lateral wall is fixedly connected with temperature detect switch (TDS).
In a preferred embodiment, the distance between described daylight lamp and sample is 380-430mm.
In a preferred embodiment, the distance between described daylight lamp and sample is 400mm.
Accompanying drawing explanation
In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is the structural representation of this utility model one embodiment.
Wherein: casing 1, daylight lamp 2, blast cooling device 3, temperature sensor I 4, temperature sensor II 5, sample holder 6, sample 7, temperature detect switch (TDS) 8
Detailed description of the invention
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.The model of daylight lamp described in the utility model is Philip HPLR400.
Embodiment 1
Such as the structural representation that Fig. 1 is this utility model one embodiment, as shown in the figure, a kind of daylight lamp degradation detecting device, including casing 1, described casing includes that daylight lamp 2, blast cooling device 3, temperature sensor I 4, temperature sensor II 5, sample holder 6 and temperature detect switch (TDS) 8, described temperature detect switch (TDS) 8 are connected with blast cooling device 3, temperature sensor I 4 and temperature sensor II 5 respectively.Described daylight lamp 2 is fixedly connected on casing 1 inside top, and described daylight lamp 2 has four, four square settings of daylight lamp 2.Four square settings of daylight lamp 2, make the distribution of light sources being irradiated on sample 7 uniform, with the sunlight in simulated environment.
Described temperature sensor I 4 hangs on casing 1 inside top, and described temperature sensor I 4 is the variations in temperature in monitoring casing 1 in real time, prevents the temperature in casing 1 from exceeding normal value.
Described sample holder 6 is fixedly connected on casing 1 inside bottom, and described sample holder 6 is placed sample 7.
Described temperature sensor II 5 is positioned at sample 7 surface, and described temperature sensor II 5 is the variations in temperature for monitoring sample 7 surface in real time, prevents sample generation high temperature deterioration.
It is fixedly connected with blast cooling device 3 on described casing 1 medial wall.
It is fixedly connected with temperature detect switch (TDS) 8 on described casing 1 lateral wall.
Distance between described daylight lamp 2 and sample 7 is 380mm.
Embodiment 2
Such as the structural representation that Fig. 1 is this utility model one embodiment, as shown in the figure, a kind of daylight lamp degradation detecting device, including casing 1, described casing includes that daylight lamp 2, blast cooling device 3, temperature sensor I 4, temperature sensor II 5, sample holder 6 and temperature detect switch (TDS) 8, described temperature detect switch (TDS) 8 are connected with blast cooling device 3, temperature sensor I 4 and temperature sensor II 5 respectively.Described daylight lamp 2 is fixedly connected on casing 1 inside top, and described daylight lamp 2 has four, four square settings of daylight lamp 2.Four square settings of daylight lamp 2, make the distribution of light sources being irradiated on sample 7 uniform, with the sunlight in simulated environment.
Described temperature sensor I 4 hangs on casing 1 inside top, and described temperature sensor I 4 is the variations in temperature in monitoring casing 1 in real time, prevents the temperature in casing 1 from exceeding normal value.
Described sample holder 6 is fixedly connected on casing 1 inside bottom, and described sample holder 6 is placed sample 7.
Described temperature sensor II 5 is positioned at sample 7 surface, and described temperature sensor II 5 is the variations in temperature for monitoring sample 7 surface in real time, prevents sample generation high temperature deterioration.
It is fixedly connected with blast cooling device 3 on described casing 1 medial wall.
It is fixedly connected with temperature detect switch (TDS) 8 on described casing 1 lateral wall.
Distance between described daylight lamp 2 and sample 7 is 400mm.
Embodiment 3
Such as the structural representation that Fig. 1 is this utility model one embodiment, as shown in the figure, a kind of daylight lamp degradation detecting device, including casing 1, described casing includes that daylight lamp 2, blast cooling device 3, temperature sensor I 4, temperature sensor II 5, sample holder 6 and temperature detect switch (TDS) 8, described temperature detect switch (TDS) 8 are connected with blast cooling device 3, temperature sensor I 4 and temperature sensor II 5 respectively.Described daylight lamp 2 is fixedly connected on casing 1 inside top, and described daylight lamp 2 has four, four square settings of daylight lamp 2.Four square settings of daylight lamp 2, make the distribution of light sources being irradiated on sample 7 uniform, with the sunlight in simulated environment.
Described temperature sensor I 4 hangs on casing 1 inside top, and described temperature sensor I 4 is the variations in temperature in monitoring casing 1 in real time, prevents the temperature in casing 1 from exceeding normal value.
Described sample holder 6 is fixedly connected on casing 1 inside bottom, and described sample holder 6 is placed sample 7.
Described temperature sensor II 5 is positioned at sample 7 surface, and described temperature sensor II 5 is the variations in temperature for monitoring sample 7 surface in real time, prevents sample generation high temperature deterioration.
It is fixedly connected with blast cooling device 3 on described casing 1 medial wall.
It is fixedly connected with temperature detect switch (TDS) 8 on described casing 1 lateral wall.
Distance between described daylight lamp 2 and sample 7 is 430mm.
Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses this utility model.Multiple amendment to these embodiments will be apparent from for those skilled in the art, and generic principles defined herein can realize in the case of without departing from spirit or scope of the present utility model in other embodiments.Therefore, this utility model is not intended to be limited to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty.
Claims (10)
1. a daylight lamp degradation detecting device, including casing, it is characterized in that, described casing includes daylight lamp, blast cooling device, temperature sensor I, temperature sensor II, sample holder and temperature detect switch (TDS), and described temperature detect switch (TDS) is connected with blast cooling device, temperature sensor I and temperature sensor II respectively.
Daylight lamp degradation detecting device the most according to claim 1, it is characterised in that described daylight lamp is fixedly connected on box inside top.
Daylight lamp degradation detecting device the most according to claim 1 and 2, it is characterised in that described daylight lamp has four, four square settings of daylight lamp.
Daylight lamp degradation detecting device the most according to claim 1, it is characterised in that described temperature sensor I hangs on box inside top.
Daylight lamp degradation detecting device the most according to claim 1, it is characterised in that described sample holder is fixedly connected on bottom box inside, described sample holder is placed sample.
Daylight lamp degradation detecting device the most according to claim 1, it is characterised in that described temperature sensor II is positioned at sample surface.
Daylight lamp degradation detecting device the most according to claim 1, it is characterised in that be fixedly connected with blast cooling device on described box inside wall.
Daylight lamp degradation detecting device the most according to claim 1, it is characterised in that be fixedly connected with temperature detect switch (TDS) on described casing lateral wall.
Daylight lamp degradation detecting device the most according to claim 1, it is characterised in that the distance between described daylight lamp and sample is 380-430mm.
Daylight lamp degradation detecting device the most according to claim 9, it is characterised in that the distance between described daylight lamp and sample is 400mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620025429.0U CN205581009U (en) | 2016-01-12 | 2016-01-12 | Fluorescent lamp detection device that ages |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620025429.0U CN205581009U (en) | 2016-01-12 | 2016-01-12 | Fluorescent lamp detection device that ages |
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CN205581009U true CN205581009U (en) | 2016-09-14 |
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CN201620025429.0U Active CN205581009U (en) | 2016-01-12 | 2016-01-12 | Fluorescent lamp detection device that ages |
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2016
- 2016-01-12 CN CN201620025429.0U patent/CN205581009U/en active Active
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