CN107515058A - Fiber-optical grating temperature sensor temperature calibration thermostat under thermal vacuum environment - Google Patents

Abstract

The invention discloses fiber-optical grating temperature sensor temperature calibration thermostat under a kind of thermal vacuum environment, including outer barrel, inner cylinder, heating plate, high-precision platinum resistor temperature sensor and temperature conditioning unit, inner/outer tube one integral sleeve structure of adiabatic fixed formation, heating plate is pasted onto outer tube outer surface, on interior tube outer surface, platinum resistance temperature sensor is arranged on the outer tube inner surface of thermostat, interior tube outer surface, interior tube inner surface and it is opened in the inner cylinder inside groove of inner cylinder inwall, heating plate is connected to temperature conditioning unit with platinum resistance temperature sensor, fiber-optical grating temperature sensor to be calibrated is placed in the inner cylinder inside groove of same temperature field with platinum resistance temperature sensor, to measure wavelength by fiber Bragg grating (FBG) demodulator.The present invention is simple in construction, and easy to operate, low manufacture cost, calibration sensor quantity is more, and the fiber-optical grating temperature sensor for being applicable bare optical fibers and bare optical gratings temperature sensor and various packing forms carries out temperature calibration experiment.

Description

Fiber-optical grating temperature sensor temperature calibration thermostat under thermal vacuum environment

Technical field

The invention belongs to optical fiber sensing field of measuring technique, and in particular to fiber grating temperature under a kind of thermal vacuum environment Spend sensor temperature demarcation thermostat.

Background technology

As China's spacecraft Project R＆D requires to improve constantly, to measuring spacecraft under ground simulation space environment Temperature, monitors spacecraft structure temperature in real time and the demand of in-orbit progress heath state of spacecraft diagnosis is very urgent.With The electric class temperature sensor (RTD, thermocouple etc.) of tradition is compared, and fiber-optical grating temperature sensor has electromagnetism interference, not shadow Ring external electromagnetic field, high sensitivity, light flexible, do not produce self-heating, many reference amounts composite sensing measurement, large space distributed measurement And it is easy to the remarkable advantage of networking, therefore, fiber grating temperature sensor technology can meet large complicated satellite and large scale structure In terms of part (such as net-shape antenna, truss structure, solar wing, mechanical arm) ground space environmental test and in-orbit health status diagnosis Application demand, this also to fiber-optical grating temperature sensor vacuum (be less than 1.0 × 10^-4Pa) thermal environment (- 150 DEG C~+150 DEG C) under measurement accuracy requirement more and more higher, it is necessary to fiber-optical grating temperature sensor carry out temperature calibration.

Under atmospheric condition, conventional fiber grating temperature sensor demarcation mode is directly by fiber-optical grating temperature sensor Itself it is placed in constant temperature gas cabinet or isothermal liquid bath and carries out temperature calibration, and is needed in view of fiber-optical grating temperature sensor The actual conditions used under thermal vacuum environment, constant temperature gas cabinet or isothermal liquid bath are not suitable with thermal vacuum environment, therefore are Fiber-optical grating temperature sensor temperature measurement accuracy is effectively ensured, it is necessary to for fiber-optical grating temperature sensor onsite application operating mode, if Count and optical fiber grating temperature caliberating device is used under new thermal vacuum environment.

Due to (being less than 1.0 × 10 in vacuum environment^-4Pa used under), heat convection is not present under vacuum environment, only supported Conduction heat exchange and radiation heat transfer mode, therefore, it is necessary to the demarcation of practical service environment is carried out to fiber-optical grating temperature sensor.

The content of the invention

The technical problem to be solved in the present invention is to provide for a kind of optical fiber grating temperature that can adapt to high vacuum environment and passed Sensor temperature calibration thermostat, there is provided stable and uniform temperature field, realize temperature calibration purpose, it is intended to meet thermal vacuum environment Lower fiber-optical grating temperature sensor temperature calibration requirement, suitable for bare optical fibers and bare optical gratings temperature sensor and various packing forms Fiber-optical grating temperature sensor carry out temperature calibration experiment.

In order to solve the above technical problems, the technical solution adopted by the present invention is as follows：

Fiber-optical grating temperature sensor temperature calibration thermostat under thermal vacuum environment, including outer barrel, inner cylinder, heating Piece, high-precision platinum resistor temperature sensor and temperature conditioning unit, outer barrel surfaces externally and internally, interior tube outer surface even application high emissivity material Material, inner/outer tube one integral sleeve structure of adiabatic fixed formation, some heating plates are pasted onto outer tube outer surface and interior tube outer surface On to keep its temperature, multiple high-precision platinum resistor temperature sensors are separately positioned on outer tube inner surface, interior tube outer surface, interior In tube inner surface and inner cylinder inside groove, inner cylinder inside groove is opened on inner cylinder inwall to accommodate fiber grating to be calibrated along longitudinal direction Temperature sensor and platinum resistance temperature sensor, heating plate are used to respectively connect by cable with high-precision platinum resistor temperature sensor Measurement and control of temperature unit is connected to, heating plate is connected to temperature conditioning unit with high-precision platinum resistor temperature sensor, and temperature conditioning unit measures peace The platinum resistance temperature data of tube inner surface outside thermostat, supplied to the heating plate for being pasted onto tube outer surface outside thermostat Electricity, control thermostat outer barrel wall temperature；Temperature conditioning unit measures tube outer surface, the platinum of interior tube inner surface in thermostat Resistance temperature data, powered to the heating plate for being pasted onto tube outer surface in thermostat, control thermostat inner cylinder wall temperature, outside Cylinder carries out radiation heat transfer with inner cylinder, realizes that inner cylinder inside groove turns into temperature uniform field.

Wherein, inner cylinder is provided with cover at the top of inner cylinder, inner cylinder bottom cover, the perforation of inner cylinder bottom wire harness, inner cylinder hangers, interior Wire harness perforation at the top of cylinder inside groove, inner cylinder, inner cylinder hangers utilize cover and inner cylinder bottom at the top of fastening bolt fixation inner cylinder barrel, inner cylinder Portion's cover, some inner cylinder inside grooves are opened on inner cylinder inwall along longitudinal direction.

Wherein, outer barrel is provided with cover at the top of outer barrel, outer barrel bottom cover, the perforation of outer barrel bottom wire harness, outer barrel top line Beam perforation, retainer ring, outer barrel bottom retainer ring, outer barrel fastening bolt at the top of outer barrel, using loom connect inner cylinder hangers with Outer barrel fastening bolt, rotate up retainer ring at the top of outer barrel and tense loom with outer barrel bottom retainer ring, loom will Outer barrel is connected to form an integral sleeve structure with inner cylinder thermal insulation.

Wherein, inside and outside sleeve is made from the good material of heat conduction, such as aluminium or copper material, outside outer barrel surfaces externally and internally, inner cylinder Surface even application high-emissivity material is for example pitch-dark or carries out surface anodization to its outer barrel surfaces externally and internally, interior tube outer surface.

Wherein, outer tube inner surface, interior tube outer surface, which are uniformly pasted, is covered with heating plate.

Wherein, inner cylinder inwall is slotted, and fluting quantity is unlimited, and groove width is 1~10mm, preferably 2mm, and separation is 1~ 10mm, preferably 5mm.

Wherein, outer barrel leaves wire harness perforation with inner cylinder top, bottom cover, and it is outside that current supply cable passes thermostat connection Temperature conditioning unit.

The thermostat of the present invention has simple in construction, and easy to operate, low manufacture cost, calibration sensor quantity is more, Under thermal vacuum environment, in -150 DEG C~+150 DEG C wide temperature ranges, the stable optical fiber grating temperature of user is fast and accurately supplied to Demarcate environment, in -150 DEG C~+150 DEG C temperature ranges, the stability and uniformity of temperature, respectively reached ± 0.1 DEG C and ± 0.5 DEG C of level, meet fiber-optical grating temperature sensor temperature calibration requirement under thermal vacuum environment, be applicable bare fibre light The fiber-optical grating temperature sensor of grid temperature sensor and various packing forms carries out temperature calibration experiment.

Brief description of the drawings

Fig. 1 is to show the thermostat released state schematic perspective view according to one exemplary embodiment of the present invention, its Middle outer barrel 200, inner cylinder 100, inner cylinder top cover 10, inner cylinder bottom cover 11, inner cylinder bottom wire harness perforation 12, inner cylinder hangers 13rd, cover 20, outer barrel bottom cover 21, outer barrel bottom wire harness perforation 22, outer barrel top wire harness perforation 23, outer barrel top at the top of outer barrel Portion's retainer ring 24, outer barrel bottom retainer ring 25, outer barrel fastening bolt 26, outer barrel 200, inner cylinder 100 are in the state of separation.

Fig. 2 is Fig. 1 profile, wherein inner cylinder inside groove 14.

Fig. 3 is to show the thermostat outer barrel schematic perspective view according to one exemplary embodiment of the present invention, its China and foreign countries Cover 20, outer barrel top wire harness perforation 23, outer barrel fastening bolt 26 at the top of cylinder 200, outer barrel.

Fig. 4 is to show to be shown according to the solid of the thermostat outer barrel of one exemplary embodiment of the present invention another angle It is intended to, wherein outer barrel 200, outer barrel bottom cover 21, outer barrel bottom wire harness perforation 22.

Fig. 5 is to show the thermostat inner cylinder schematic perspective view according to one exemplary embodiment of the present invention, wherein interior Cover 10, inner cylinder hangers 13, inner cylinder top wire harness perforation 15 at the top of cylinder 100, inner cylinder.

Fig. 6 is to show to be shown according to the solid of the thermostat inner cylinder of one exemplary embodiment of the present invention another angle It is intended to, wherein inner cylinder 100, inner cylinder bottom cover 11, inner cylinder bottom wire harness perforation 12, inner cylinder hangers 13.

Embodiment

It is permanent to fiber-optical grating temperature sensor temperature calibration under a kind of thermal vacuum environment of the present invention referring to the drawings The structure of warm device is described in detail, but this describe it is merely illustrative, it is no intended to protection scope of the present invention carry out Any restrictions.

As shown in Figures 1 to 6, the thermostat includes outer barrel 200, inner cylinder 100, inner cylinder top cover 10, inner cylinder bottom cylinder Lid 11, inner cylinder bottom wire harness perforation 12, inner cylinder hangers 13, inner cylinder inside groove 14, inner cylinder top wire harness perforation 15, outer barrel top cover 20th, outer barrel bottom cover 21, outer barrel bottom wire harness perforation 22, outer barrel top wire harness perforation 23, outer barrel top retainer ring 24, outer barrel Bottom retainer ring 25, outer barrel fastening bolt 26.The surfaces externally and internally of thermostat outer barrel 200, the outer surface even application of inner cylinder 100 are occurred frequently Penetrate rate material.

Wherein, inner cylinder hangers 13 fixes the barrel of inner cylinder 100, inner cylinder top cover 10 and inner cylinder bottom cylinder using fastening bolt Lid 11, then, inner cylinder hangers 13 and outer barrel fastening bolt 26 are connected using loom, then, rotated up solid at the top of outer barrel Determine ring 24 to tense loom with outer barrel bottom retainer ring 25, finally, loom is adiabatic even by outer barrel 200 and inner cylinder 100 Connect one integral sleeve structure of fixed formation.

Heating plate is pasted onto the outer surface of thermostat outer barrel 200, the outer surface of inner cylinder 100.High-precision platinum resistor TEMP Device is arranged on the inner surface of thermostat outer barrel 200, the outer surface of inner cylinder 100, the inner surface of inner cylinder 100 and inner cylinder inside groove 14, outer barrel The heating plate and inner surface of outer barrel 200, the outer surface of the inner cylinder 100 and inner surface of inner cylinder 100 of 200 outer surfaces and the outer surface of inner cylinder 100 High-precision platinum resistor temperature sensor by cable through wire harness perforation 12 at the top of inner cylinder, inner cylinder bottom wire harness perforation 12, outer Wire harness perforation 23 is connected to temperature conditioning unit at the top of cylinder bottom wire harness perforation 22 and outer barrel.Temperature conditioning unit measures to be filled installed in constant temperature The platinum resistance temperature data of outer tube inner surface are put, is powered to the heating plate for being pasted onto tube outer surface outside thermostat, controls constant temperature The barrel temperature of device outer barrel 200；Temperature conditioning unit measures the platinum installed in the outer surface of thermostat inner cylinder 100, the inner surface of inner cylinder 100 Resistance temperature data, powered to the heating plate for being pasted onto the outer surface of thermostat inner cylinder 100, control thermostat inner cylinder 100 Wall temperature, outer barrel 200 carry out radiation heat transfer with inner cylinder 100, are finally reached thermal equilibrium state, realize that inner cylinder inside groove 14 turns into temperature Uniform field, fiber-optical grating temperature sensor to be calibrated are placed in installed in inner cylinder inside groove 14 with high-precision platinum resistor temperature sensor In same inside groove 14, in same temperature uniform field, fiber Bragg grating (FBG) demodulator, fiber Bragg grating (FBG) demodulator note are connected to by optical cable High-precision platinum resistor temperature in groove when optic fiber grating wavelength during the lower temperature stabilization of record, temperature conditioning unit record temperature stabilization Value, obtain under different temperatures operating mode, the optic fiber grating wavelength in same inside groove 14 and high-precision platinum resistor temperature value corresponding relation, The multiple groove inner fiber grating wavelengths of synchronization gain and high-precision platinum resistor temperature value corresponding relation, complete multiple optical fiber grating temperatures Sensor needs the synchronous calibration test under thermal vacuum environment.

The thermostat of the present invention has simple in construction, and easy to operate, low manufacture cost, calibration sensor quantity is more, Under thermal vacuum environment, in -150 DEG C~+150 DEG C wide temperature ranges, the stable optical fiber grating temperature of user is fast and accurately supplied to Demarcate environment, in -150 DEG C~+150 DEG C temperature ranges, the stability and uniformity of temperature, respectively reached ± 0.1 DEG C and ± 0.5 DEG C of level, meet fiber-optical grating temperature sensor temperature calibration requirement under thermal vacuum environment, be applicable bare fibre light The fiber-optical grating temperature sensor of grid temperature sensor and various packing forms carries out temperature calibration experiment.

Although giving detailed description and explanation to the embodiment of the present invention above, it should be noted that We can carry out various equivalent changes and modification to above-mentioned embodiment according to the conception of the present invention, and its caused function is made , all should be within protection scope of the present invention during with the spirit still covered without departing from specification and accompanying drawing.

Claims (10)

1. fiber-optical grating temperature sensor temperature calibration thermostat under thermal vacuum environment, including outer barrel, inner cylinder, heating plate, High-precision platinum resistor temperature sensor and temperature conditioning unit, outer barrel surfaces externally and internally, interior tube outer surface even application high-emissivity material, Inner/outer tube one integral sleeve structure of adiabatic fixed formation, some heating plates are pasted onto on outer tube outer surface and interior tube outer surface and used To keep its temperature, multiple high-precision platinum resistor temperature sensors are separately positioned on outer tube inner surface, interior tube outer surface, in inner cylinder In surface and inner cylinder inside groove, inner cylinder inside groove is opened on inner cylinder inwall to accommodate optical fiber grating temperature to be calibrated along longitudinal direction Sensor and platinum resistance temperature sensor, heating plate are used to be connected respectively to by cable with high-precision platinum resistor temperature sensor Measurement and control of temperature unit, heating plate are connected to temperature conditioning unit with high-precision platinum resistor temperature sensor, and temperature conditioning unit, which measures, to be arranged on The platinum resistance temperature data of the outer tube inner surface of thermostat, power to the heating plate for being pasted onto tube outer surface outside thermostat, control Thermostat outer barrel wall temperature processed；Temperature conditioning unit measures tube outer surface, the RTD of interior tube inner surface in thermostat Temperature data, to be pasted onto tube outer surface in thermostat heating plate power, control thermostat inner cylinder wall temperature, outer barrel with Inner cylinder carries out radiation heat transfer, realizes that inner cylinder inside groove turns into temperature uniform field.

2. thermostat as claimed in claim 1, wherein, inner cylinder is provided with cover, inner cylinder bottom cover, inner cylinder at the top of inner cylinder Wire harness perforation at the top of bottom wire harness perforation, inner cylinder hangers, inner cylinder inside groove, inner cylinder, inner cylinder hangers fix inner cylinder using fastening bolt Cover and inner cylinder bottom cover at the top of barrel, inner cylinder, some inner cylinder inside grooves are opened on inner cylinder inwall along longitudinal direction.

3. thermostat as claimed in claim 1, wherein, outer barrel is provided with cover, outer barrel bottom cover, outer barrel at the top of outer barrel Wire harness perforation, outer barrel top retainer ring, outer barrel bottom retainer ring, outer barrel fastening bolt, are utilized at the top of bottom wire harness perforation, outer barrel Loom connects inner cylinder hangers and outer barrel fastening bolt, and rotating up retainer ring at the top of outer barrel will be exhausted with outer barrel bottom retainer ring Edge wire harness is tensed, and outer barrel and inner cylinder thermal insulation are connected to form an integral sleeve structure by loom.

4. the thermostat as described in claim any one of 1-3, wherein, inside and outside sleeve is made from the good material of heat conduction, outside Cylinder surfaces externally and internally, interior tube outer surface even application high-emissivity material are carried out to its outer barrel surfaces externally and internally, interior tube outer surface Surface anodization.

5. thermostat as claimed in claim 4, wherein, the good material of heat conduction is aluminium or copper material.

6. thermostat as claimed in claim 4, wherein, high-emissivity material is pitch-dark.

7. the thermostat as described in claim any one of 1-3, wherein, outer tube inner surface, interior tube outer surface uniformly paste cloth Full heating plate.

8. the thermostat as described in claim any one of 1-3, wherein, inner cylinder inwall fluting, fluting quantity is unlimited, and groove width is 1~10mm, separation is 1~10mm.

9. thermostat as claimed in claim 6, wherein, groove width 2mm, separation 5mm.

10. the thermostat as described in claim any one of 1-3, wherein, outer barrel leaves line with inner cylinder top, bottom cover Beam is perforated, and current supply cable passes the outside temperature conditioning unit of thermostat connection, and thermostat connection external fiber grating is passed for optical cable (FBG) demodulator.