CN102494766A - Ultraviolet sensor possessing constant temperature apparatus - Google Patents

Abstract

The invention relates to an ultraviolet sensor possessing a constant temperature apparatus. The ultraviolet sensor comprises a shell and a photoelectric inductor. The constant temperature apparatus is arranged in the shell. The photoelectric inductor is installed in the shell through the constant temperature apparatus. The constant temperature apparatus collects a working temperature of the photoelectric inductor in the shell and compares the collected working temperature with a preset temperature so that the photoelectric inductor works in a preset temperature range. According to the invention, an adverse effect of a temperature characteristic of the photoelectric inductor on radiation measurement can be radically eliminated; measuring precision of an ultraviolet radiation sensor can be greatly increased; an actual need of all-terrain, high-precision and perennial field ultraviolet radiation monitoring can be satisfied. One-end strengthened heat insulation effect can be formed through a heat insulation tube so as to reduce a constant temperature point heat flow diffusion rate. One-end strengthened heat dissipation performance is formed to reduce a general structure design scheme of a continuous increasing trend of cold and hot end temperature difference. Therefore, temperature control performance can be reinforced. Power consumption of the constant temperature control can be reduced. A structure is compact.

Description

A kind of Ultraviolet sensor with thermostat

Technical field

The present invention relates to a kind of Ultraviolet sensor; Especially a kind of Ultraviolet sensor with thermostat; Specifically be applicable to high-acruracy survey to solar radiation or other artificial radioactive source's medium ultraviolet component; And adapt to outdoor environment, wide territorial scope through the working sensor temperature is controlled, and realize that the UV radiation of high-precision requirement is measured, belong to the UV radiation technical field of measuring.

Background technology

Along with the discovery in atmospheric ozone cavity, the measurement of solar radiation medium ultraviolet component causes people's great attention day by day.Relevant departments are not only through monitoring and forecast to UV radiation; The early warning service of safe and sanitary aspect is provided for the public; And through carrying out accurate solar ultraviolet radiation monitoring in the world; Obtain the relevant information that earth environment changes, for the research of subjects such as meteorology, environment, geophysics provides important scientific basis.Present ultraviolet radiation sensor generally adopts photoelectric method to measure, but there is a nonlinear temperature characterisitic usually in photoelectric device, especially at ultraviolet section and infrared end.Because very faint in wave band UV radiation intensity itself, the variation of ambient temperature errors caused will be very big, as shown in Figure 1 in wide temperature range.

Therefore, the ultraviolet radiation sensor of domestic production at present perhaps only is applicable to the application scenario of laboratory environment because the restriction of photoelectric device temperature characterisitic only is applicable to the measurement of lower accuracy usually.Important component part as the high-precision sun Radiation monitoring; High precision UV radiation monitoring equipment need carry out long-term field work in most areas in the whole world; Operating temperature range maybe be in-40 ℃-60 ℃ scope, presses for a kind ofly can keep the ultraviolet radiation sensor than high measurement accuracy under the situation of change significantly in environment temperature.

Summary of the invention

The objective of the invention is to overcome the deficiency that exists in the prior art, a kind of Ultraviolet sensor with thermostat is provided, its compact conformation improves the scope of application and measuring accuracy, and is easy to use.

According to technical scheme provided by the invention, said Ultraviolet sensor with thermostat comprises housing and is positioned at the photoelectric sensor of said housing; Be provided with thermostat in the said housing; Said photoelectric sensor is installed in the housing through thermostat; Said thermostat is gathered the working temperature of photoelectric sensor in housing; And thermostat compares working temperature of gathering and preset temperature, and makes photoelectric sensor work in the preset temperature range.

Said thermostat comprises soaking device, the fastening bottom that is installed on said soaking device of photoelectric sensor, and photoelectric sensor and soaking device contact with the upper end heat conduction of semiconductor cooler; The lower end of semiconductor cooler contacts with lower part of frame heat conduction through heat sink, and semiconductor cooler and soaking device are installed in the housing through heat sink; Soaking device is provided with temperature sensor, and said temperature sensor links to each other with the input end of the temperature-control circuit of heat sink below, and the output terminal of said temperature-control circuit links to each other with semiconductor cooler; Temperature sensor detects the working temperature of photoelectric sensor; And in the working temperature input temp control circuit that detection is obtained; Said temperature-control circuit compares working temperature and the preset temperature that detection obtains, and makes the working temperature of photoelectric sensor and preset temperature be complementary through semiconductor cooler.

Be provided with heat insulation tube between said heat sink and soaking device, said heat insulation tube through heat insulation tube trim ring be installed on heat sink on; The top of said heat insulation tube is provided with heat insulation loop, and said heat insulation loop contacts with the upper end of soaking device.

The upper end of said heat insulation tube is equipped with the ultraviolet color filter through the color filter trim ring, and the lower end of said ultraviolet color filter contacts with heat insulation loop.

The top of said housing is provided with the cosine corrector, and said cosine corrector is installed on the housing through the corrector trim ring.

Said temperature-control circuit comprises microprocessor; Temperature sensor links to each other with the input end of microprocessor through A/D converter, and microprocessor links to each other with semiconductor cooler through driver, and microprocessor links to each other with memory module, and the power end of microprocessor and driver links to each other with power module.

The lower end of said housing is provided with dryer bin, and said dryer bin is connected with the interior cavity of housing; Be provided with in the dryer bin and be used for air dried dehydrating cartridge in the housing.

Said housing comprises lower house, and the upper end of said lower house is provided with upper shell, said upper shell and lower house corresponding matching.

The lower end of said housing is provided with the sealed wiring post, and said connecting line is electrically connected with thermostat through the sealed wiring post.

The axis of said housing and the axis of photoelectric sensor are located along the same line.

Advantage of the present invention: the working temperature of gathering photoelectric sensor through temperature sensor; Utilize semiconductor cooler and temperature-control circuit with the working temperature all-the-time stable of photoelectric sensor a specific narrow and small temperature range; Thereby in the temperature characterisitic of fundamentally having eliminated photoelectric sensor to radiometric adverse effect; Improve the measuring accuracy of ultraviolet radiation sensor greatly, satisfied the actual needs of full region, high precision, long-term open-air UV radiation monitoring; Form an end through heat insulation tube and strengthen effect of heat insulation to reduce constant temperature point hot-fluid rate of diffusion; One end enhance heat performance is to reduce the general structure design scheme that the cold and hot end temperature difference continues increase tendency; Strengthen the temperature control performance, reduced thermostatically controlled power consumption; Compact conformation, overall dimension is suitable basically with the product that adopts original technology to produce, and when the product that alternative original technology is produced, need not the original mounting structure of change system.

Description of drawings

Fig. 1 is the temperature characteristics of present photoelectric sensor.

Fig. 2 is a structural representation of the present invention.

Fig. 3 is the structured flowchart of thermostat of the present invention.

Fig. 4 is the workflow diagram of thermostat of the present invention.

Embodiment

Below in conjunction with concrete accompanying drawing and embodiment the present invention is described further.

As shown in Figure 2: as to the present invention includes photoelectric sensor 1, soaking device 2, semiconductor cooler 3, heat sink 4, lower house 5, upper shell 6, cosine corrector 7, corrector trim ring 8, ultraviolet color filter 9, color filter trim ring 10, heat insulation tube 11, heat insulation loop 12, heat insulation tube trim ring 13, dryer bin 14, dehydrating cartridge 15, temperature-control circuit 16, temperature sensor 17 and sealed wiring post 18.

As shown in Figure 2: in order to improve the degree of accuracy that Ultraviolet sensor detects; The thermostat that is provided with photoelectric sensor 1 in the said housing and is used for photoelectric sensor 1 working temperature is regulated; Photoelectric sensor 1 is installed in the housing through thermostat, and the axis of photoelectric sensor 1 and the axis of housing are located along the same line.Thermostat detects the working temperature of photoelectric sensor 1; And thermostat is compared the working temperature that detects with preset temperature; And can make the working temperature of photoelectric sensor 1 be positioned at preset temperature range, reduce the influence of temperature variation to photoelectric sensor 1 output testing result.Particularly, housing comprise lower house 5 and with the upper shell 6 of said lower house 5 corresponding cooperations, said upper shell 6 and lower house 5 are enclosed the shell structure of relative closure.The top of housing is provided with cosine corrector 7, and said cosine corrector 7 is positioned at the top of photoelectric sensor 1 light-sensitive surface; Said cosine corrector 7 is through corrector trim ring 8 fastening being installed in the upper shell 6; Corrector trim ring 8 is positioned at cosine corrector 7 belows, can support cosine corrector 7 through corrector trim ring 8.Cosine corrector 7 and upper shell 6 corresponding matching can play the purpose of seal casinghousing upper end, can incident radiation be modified to the state that does not have directional selectivity as incidence window simultaneously and get into enclosure interior, can be detected output by photoelectric sensor 1.

Thermostat comprises soaking device 2; The said photoelectric sensor 1 fastening bottom that is installed on soaking device 2; 2 heat conduction of photoelectric sensor 1 and soaking device contact, and form the thermostat with certain thermal capacity, to reduce the frequent fluctuation that the temperature control process causes photoelectric sensor 1 temperature.The bottom of photoelectric sensor 1 and soaking device 2 contacts with the upper end face heat conduction of semiconductor cooler 3 (TEC), and the rear surface of said semiconductor cooler 3 contacts with heat sink 4 heat conduction.Said heat sink 4 with lower house 5 corresponding matching, thereby photoelectric sensor 1, soaking device 2 and semiconductor cooler 3 all are installed in the housing through heat sink 4.Heat sink 4 and the axis of soaking device 2 all be located along the same line with the axis of housing.

Heat sink 4 and 2 of soaking devices be provided with heat insulation tube 11, said heat insulation tube 11 is installed on heat sink 4 through heat insulation tube trim ring 13; Heat insulation tube 11 adopts heat-barrier material to process.The axis of heat insulation tube 4 and heat insulation tube trim ring 13 and the axis of housing are located along the same line.Photoelectric sensor 1, soaking device 2 and semiconductor cooler 3 all are positioned at heat insulation tube 11, and the outer wall of soaking device 2 and the 11 corresponding cooperations of heat insulation tube can further reduce soaking device 2 and external heat exchange through heat insulation tube 11.Upper end in the heat insulation tube 11 is provided with heat insulation loop 12, and said heat insulation loop 12 contacts with the upper end of soaking device 2.The top of heat insulation tube 11 is provided with ultraviolet color filter 9; Said ultraviolet color filter 9 is installed in the heat insulation tube 11 through color filter trim ring 10; And the downside of ultraviolet color filter 9 supports through heat insulation loop 12, and the axis of the axis of ultraviolet color filter 9 and heat insulation tube 11 is located along the same line.Said semiconductor cooler 3 and on photoelectric sensor 1 and soaking device 2 place in the heat insulation tube 11 that adopts hot poor conductor materials processing; Form a heat insulation subenvironment; Reduce the heat interchange of photoelectric sensor 1 and external environment, thereby reduce the power consumption levels of temperature-control circuit 16.Heat insulation tube 11 and heat insulation loop 12 common blocking-up and extraneous heat conduction via form one with ultraviolet color filter 9 and are close to airtight insulated space, reduce thermostat and extraneous heat interchange, to reduce the power consumption of thermostat.

In order to access the working temperature of photoelectric sensor 1; Said thermostat comprises temperature sensor 17; Said temperature sensor 17 stretches in the soaking device 2 in heat sink 4; The output terminal of temperature sensor 17 links to each other with the temperature-control circuit 16 of heat sink 4 belows, and the output terminal of temperature-control circuit 16 links to each other with semiconductor cooler 3; When temperature sensor 17 detected the working temperature fluctuation variation of photoelectric sensor 1, temperature-control circuit 16 was carried or is extracted heat through semiconductor cooler 3 to soaking device 2 and guarantees that photoelectric sensor 1 working temperature is no more than the fluctuation range of regulation.The lower end of lower house 5 is provided with sealed wiring post 18, and said connecting line links to each other with temperature-control circuit 16 and photoelectric sensor 1 through sealed wiring post 18; Sealed wiring post 18 can be avoided gas and the outer gas generation heat interchange of housing in the housing.Size of current and direction through change and control semiconductor cooler 3 two ends can be regulated control to the temperature of photoelectric sensor 1.

The lower end of lower house 5 also is provided with dryer bin 14, said dryer bin 14 with heat sink 4 with the bottom of housing between the cavity that forms be connected.Be provided with dehydrating cartridge 15 in the dryer bin 14, said dehydrating cartridge 15 is put into dryer bin 14, and dehydrating cartridge 15 stretch into heat sink 4 with the cavity of housing bottom in.The axis of the axis of dehydrating cartridge 15 and dryer bin 14 is consistent; Dehydrating cartridge 15 and dryer bin 14 corresponding matching; Can change dehydrating cartridge 15, can guarantee the drying of air in the housing, prevent to observe or cause the circuit damage because of the influence of semiconductor cooler 3 cold junction dewfall.Housing can form airtight relatively shell structure through the corresponding matching of cosine corrector 7, dehydrating cartridge 15 and sealed wiring post 18, can make photoelectric sensor 1 be in the environment of relative closure.

Like Fig. 3 and shown in Figure 4: said temperature-control circuit 16 comprises microprocessor (MCU); Temperature sensor 17 links to each other with the input end of microprocessor through A/D converter; The output terminal of microprocessor links to each other with semiconductor cooler 3 through driver; Microprocessor links to each other with memory module; Said memory module is EEPROM, and microprocessor links to each other with the output terminal of power module with the power end of driver.Microprocessor can be single-chip microcomputer, or other process chip.During work, microprocessor is carried out initialization, whether microprocessor detects each module normal, if undesired, microprocessor is through carrying out self check to each module, and corresponding module all is in normal operating conditions in temperature-control circuit 16.After operate as normal, microprocessor is sampled to the temperature signal that temperature sensor 17 detects through A/D converter, and microprocessor compares temperature T of gathering and design temperature T0; When collecting temperature T and design temperature T0 did not match, microprocessor was adjusted temperature through driver drives semiconductor cooler 3 through semiconductor cooler 3.Particularly, when collecting temperature during greater than design temperature T0, microprocessor is through the Peltier effect refrigeration of semiconductor cooler 3, so that the working temperature of photoelectric sensor 1 and design temperature T0 are complementary; When collecting temperature during less than design temperature T0, microprocessor heats through the Peltier effect of semiconductor cooler 3, and said heat is transmitted to photoelectric sensor 1 through soaking device 2, makes the working temperature of photoelectric sensor 1 and design temperature T0 be complementary.Semiconductor cooler 3 is by temperature-control circuit 16 and driver drives; The temperature sensor 17 monitoring working point temperature of temperature-control circuit 16 through contacting with photoelectric sensor 1, soaking device 2 heat conduction; Form closed-loop control; The working temperature that guarantees photoelectric sensor 1 is in the operating temperature range of setting all the time, eliminates environmental temperature fluctuation detects the output result to photoelectric sensor 1 influence with this.

Like Fig. 2 ~ shown in Figure 4: during use; Photoelectric sensor 1 contacts with semiconductor cooler 3 heat conduction through soaking device 2; Photoelectric sensor 1, soaking device 2, semiconductor cooler 3 and heat insulation tube 11 are installed in the lower house 5 through heat sink 4; The top of photoelectric sensor 1 is provided with ultraviolet color filter 9 and cosine corrector 7 respectively; Tested radiation is incided on the ultraviolet filter 9 after revising the incident characteristics through cosine corrector 7, through the radiation of ultraviolet filter 9 its all bands of filtering, only let the regulation wave band UV radiation through and be radiated on the sensitive surface of photoelectric sensor 1.During work, photoelectric sensor 1 produces corresponding photocurrent according to the radiation intensity of incident, through can obtain the intensity of incident radiation to the detection of photocurrent.The working temperature that temperature sensor 17 is gathered photoelectric sensor 1 through the temperature of gathering soaking device 2 in real time; The temperature that temperature-control circuit 16 detects through A/D converter collecting temperature sensor 17; And preset temperature T0 in working temperature of gathering and the memory module compared; When working temperature of gathering and preset temperature did not match, temperature-control circuit 16 was through the corresponding temperature of semiconductor cooler 3 adjustings.When environment temperature was higher than preset temperature, to photoelectric sensor 1 cooling, unnecessary heat was transmitted on the housing, dispels the heat to environment through Peltier effect; When environment temperature is lower than the working point temperature, temperature-control circuit 16 is crossed Peltier effect photoelectric sensor 1 is heated up to the reverse input current of semiconductor cooler, and the temperature of housing is descended, and from environment, absorbs heat.

Scheme provided by the invention is worked photoelectric sensor 1 under the stationary temperature condition; Fundamentally eliminated the adverse effect of the temperature characterisitic of photoelectric sensor 1 to measuring accuracy; Not only have good environmental suitability and reliability, and compact conformation, low in energy consumption; Can satisfy the requirement of solar radiation observation station upgrading, realize the outdoor round-the-clock long-term no people detection of high-precision sun UV radiation.

The working temperature that the present invention gathers photoelectric sensor 1 through temperature sensor 17; Utilize semiconductor cooler 3 and temperature-control circuit 16 with the working temperature all-the-time stable of photoelectric sensor 1 a specific narrow and small temperature range; Thereby in the temperature characterisitic of fundamentally having eliminated photoelectric sensor 1 to radiometric adverse effect; Improve the measuring accuracy of ultraviolet radiation sensor greatly, satisfied the actual needs of full region, high precision, long-term open-air UV radiation monitoring; Form an end through heat insulation tube 11 and strengthen effect of heat insulation to reduce constant temperature point hot-fluid rate of diffusion; One end enhance heat performance is to reduce the general structure design scheme that the cold and hot end temperature difference continues increase tendency; Strengthen the temperature control performance, reduced thermostatically controlled power consumption; Compact conformation, overall dimension is suitable basically with the product that adopts original technology to produce, and when the product that alternative original technology is produced, need not the original mounting structure of change system.

Claims (10)

1. Ultraviolet sensor with thermostat comprises housing and is positioned at the photoelectric sensor (1) of said housing; It is characterized in that: be provided with thermostat in the said housing; Said photoelectric sensor (1) is installed in the housing through thermostat; Said thermostat is gathered the working temperature of photoelectric sensor (1) in housing; And thermostat compares working temperature of gathering and preset temperature, and makes photoelectric sensor (1) work in the preset temperature range.

2. the Ultraviolet sensor with thermostat according to claim 1; It is characterized in that: said thermostat comprises soaking device (2); The fastening bottom that is installed on said soaking device (2) of photoelectric sensor (1), and photoelectric sensor (1) and soaking device (2) contact with the upper end heat conduction of semiconductor cooler (3); The lower end of semiconductor cooler (3) contacts with lower part of frame heat conduction through heat sink (4), and semiconductor cooler (3) and soaking device (2) are installed in the housing through heat sink (4); Soaking device (2) is provided with temperature sensor (17), and said temperature sensor (17) links to each other with the input end of the temperature-control circuit (16) of heat sink (4) below, and the output terminal of said temperature-control circuit (16) links to each other with semiconductor cooler (3); Temperature sensor (17) detects the working temperature of photoelectric sensor (1); And in the working temperature input temp control circuit (16) that detection is obtained; Said temperature-control circuit (16) compares working temperature and the preset temperature that detection obtains, and makes the working temperature and the preset temperature of photoelectric sensor (1) be complementary through semiconductor cooler (3).

3. the Ultraviolet sensor with thermostat according to claim 2 is characterized in that: be provided with heat insulation tube (11) between said heat sink (4) and soaking device (2), said heat insulation tube (11) is installed on heat sink (4) through heat insulation tube trim ring (13); The top of said heat insulation tube (11) is provided with heat insulation loop (12), and said heat insulation loop (12) contacts with the upper end of soaking device (2).

4. the Ultraviolet sensor with thermostat according to claim 3; It is characterized in that: the upper end of said heat insulation tube (11) is equipped with ultraviolet color filter (9) through color filter trim ring (10), and the lower end of said ultraviolet color filter (9) contacts with heat insulation loop (12).

5. the Ultraviolet sensor with thermostat according to claim 1 is characterized in that: the top of said housing is provided with cosine corrector (7), and said cosine corrector (7) is installed on the housing through corrector trim ring (8).

6. the Ultraviolet sensor with thermostat according to claim 2 is characterized in that: said temperature-control circuit (16) comprises microprocessor; Temperature sensor (17) links to each other with the input end of microprocessor through A/D converter, and microprocessor links to each other with semiconductor cooler (3) through driver, and microprocessor links to each other with memory module, and the power end of microprocessor and driver links to each other with power module.

7. the Ultraviolet sensor with thermostat according to claim 1 is characterized in that: the lower end of said housing is provided with dryer bin (14), and said dryer bin (14) is connected with the interior cavity of housing; Be provided with in the dryer bin (14) and be used for air dried dehydrating cartridge (15) in the housing.

8. the Ultraviolet sensor with thermostat according to claim 1 is characterized in that: said housing comprises lower house (5), and the upper end of said lower house (5) is provided with upper shell (6), said upper shell (6) and lower house (5) corresponding matching.

9. the Ultraviolet sensor with thermostat according to claim 1 is characterized in that: the lower end of said housing is provided with sealed wiring post (18), and said connecting line is electrically connected with thermostat through sealed wiring post (18).

10. the Ultraviolet sensor with thermostat according to claim 1 is characterized in that: the axis of the axis of said housing and photoelectric sensor (1) is located along the same line.

Images