CN1384343A

CN1384343A - Light-sensing temperature monitor

Info

Publication number: CN1384343A
Application number: CN 02112071
Authority: CN
Inventors: 符建
Original assignee: Individual
Current assignee: Zhejiang University ZJU
Priority date: 2002-06-12
Filing date: 2002-06-12
Publication date: 2002-12-11
Anticipated expiration: 2022-06-12
Also published as: CN1166930C

Abstract

The light sensor temperature monitoring device is to prevent the occurrence of high voltage switch or transformer and other electrical equipment being burned due to overheating, monitor its temperature change, so as to take measures in time to eliminate the signs of accidents. In the device, a reflector is installed on a temperature-sensing component made of two materials with different thermal expansion coefficients, and the temperature-sensing component can be a two-bracket structure or a bimetal sheet structure. The temperature sensing member is in contact with the temperature measuring point or as close as possible, a beam of collimated light is irradiated on the reflector, the light reflected from the reflector is received by a receiver, and the output signal of the receiver is connected to the processing device. The temperature-sensing component will cause the deflection of the mirror with the temperature change of the temperature measurement point, and there is a linear relationship between the two, and the position of the receiver can indicate the deflection of the mirror, so the temperature of the measured object can be measured. The device can be installed in a high-voltage switch cabinet, and can also be used in a place with a large space.

Description

Light-sensing temperature monitor

Technical field

The invention belongs to the monitoring temperature field, relates to light sensing remote temperature supervising device.

Background technology

In extra high voltage network, because electrical equipments such as high-tension switch or transformer are because of some reason can produce a large amount of heats, if processing in time can cause high-voltage switch gear or transformer to be burnt, thereby cause the generation of accident, cause heavy economic losses.Therefore it is extremely important equipment such as high-tension switch contact and transformer to be carried out monitoring temperature.But be in the strong-electromagnetic field owing to need carry out the environment of monitoring temperature, general contact temperature-measuring method is difficult to solve Insulation Problems and electromagnetic interference problem.Adopt contactless infrared radiation temperature method, measurement result is easily affected by environment, and cost is very high, and is not suitable for using in situations such as high-tension switch cabinet.

Summary of the invention

The present invention is directed to prior art problems, a kind of smooth sensing remote temperature supervising device is provided, it can be worked under the strong-electromagnetic field environment, is not subjected to the influence of environment, can reach higher measuring accuracy and monitoring reliability.

In order to achieve the above object, basic design is to adopt optical means to solve the insulation in the strong-electromagnetic field and the problem of electromagnetic interference (EMI), utilizes the linear thermal expansion character of material, carries out monitoring temperature in the strong-electromagnetic field in conjunction with simple optical principle.

Basic technical scheme is: catoptron is installed on the temperature-sensitive member that is made of two kinds of different materials of thermal expansivity, the temperature-sensitive member can be that two supporting structures also can be the bimetallic strip structures, the temperature-sensitive member contacts with point for measuring temperature or is close as far as possible, a branch of collimated light is radiated on the catoptron, be received device acceptance from the light of mirror reflects, link to each other with treating apparatus by the receiver output signal, treating apparatus has opto-electronic conversion, signal amplifies, data processing, record shows, functional devices such as warning can be monitored the temperature of tested electrical equipment by the position indication of receiver.

So-called two supporting structures are supports of making two supporting reflex mirrors with the material of two kinds of different thermal expansivity respectively; So-called bimetallic strip is meant two kinds of flaky materials that metal bonding forms together that thermal expansivity is different, the bimetallic strip structure has two kinds of forms, a kind of similar with two supporting structures, when being sticked together fully, the support of being made by two kinds of metal materials just becomes a kind of of bimetallic strip structure, another is that bimetallic strip is bent into the U type, and two arms of U type link to each other with base with catoptron respectively.In this device,, on temperature-measurement principle and implementation method, be essentially identical though the version of temperature-sensitive member has multiple choices.

The beneficial effect of the invention:

(1) this device has solved insulation, interference problem in the high electromagnetic field fully owing to adopt full optical means to carry out temperature survey and signal transmission;

(2) this device is owing to utilized line of material swelling properties hot in nature, and reflected light path amplifies the thermal expansion deflection, therefore can obtain higher measuring accuracy in whole range of temperature, can realize the monitoring of high reliability;

(3) this apparatus structure is simple, and is with low cost, and working service is very convenient.

Description of drawings

Fig. 1 is the structural representation of example 1;

Fig. 2 is the structural representation of example 2;

Fig. 3 is a temperature-measurement principle synoptic diagram of the present invention;

Fig. 4 is the structural representation of example 3;

Fig. 5 is the structural representation of example 4.

Embodiment:

Describe the embodiment of technical scheme in detail with reference to accompanying drawing.

Example 1 is a kind of constructional device of sealing, and its temperature-sensitive member adopts the supporting structure form.As shown in Figure 1, the incident light 19 of outside transfers collimated light 4 to and shines on the catoptron 5 by being contained in lens 3 on the base 2 on the casing 12 via optical fiber 1, catoptron is contained on the support 6 and support 7 that materials having different thermal expansion coefficient makes, two supports are fixed on the casing 12 by base 8, and the one side of the casing that links to each other with two supports is on the point for measuring temperature; From the direction of the light 9 of catoptron 5 reflection a series of receivers 10 according to certain spacing arrangement are set, these a series of receivers are fixedly mounted on the casing 12 by certain angle by base 11.Each receiver is all connecting an optical fiber 13, and light signal is transferred to conversion process, display device outside the coverage of strong magnetoelectricity field through optical fiber 13.The position of point for measuring temperature is located at needs the electrical equipment of monitoring temperature whereabouts, is within the strong-electromagnetic field coverage.When breaking down, when the temperature of point for measuring temperature changes, the temperature of support 6 and support 7 can change thereupon, because support 6 is different with the thermal expansivity of support 7, length difference between two stands can vary with temperature and change, thereby cause rack-mount catoptron 5 to deflect, and have certain linear between temperature variation and the deflection angle.As shown in Figure 3, there are angle θ in catoptron 5 ' that deflects and catoptron between the original position 5, though the direction of incident light 4 is constant, also there is angle θ in reflected light 9 ' direction with the direction of original reflected light 9.A series of receptacle 10 is set on the reflected light direction, reflected light 9 ' will be accepted by different receivers with original reflected light 9, and can indicate the size of mirror deflection amount from the position of receiver, by the linear relationship between mirror deflection amount and the temperature variation, can further determine the temperature variation of measured body, through recording the temperature value of measured body after the calibration.Temperature measuring equipment shown in Figure 1 is placed within the strong-electromagnetic field coverage, light source is placed on outside the strong-electromagnetic field coverage, with optical fiber 1 incident light is imported in the temperature measuring equipment, collimated light 4 is after the reflection of catoptron 5, reflected light 9 is accepted by a series of receiver 10 according to certain spacing arrangement, receiver 10 can be a kind of lens, and collimated light 9 is focused in the optical fiber 13.Light signal 18 is transferred in the treating apparatus 17 outside the strong-electromagnetic field coverage by optical fiber 13 then, realizes functions such as opto-electronic conversion, signal amplification, data processing, record demonstration, warning.Because each receiver is all to there being an output optical fibre, as long as therefore the light signal that detects in certain root optical fiber just can be judged the position that receives catoptrical receiver 10, thereby judge the mirror deflection amount, draw the temperature of testee, reach the purpose of monitoring temperature.In summary, the precision of measuring temperature is mainly decided by the distance between the temperature variant amplitude in mirror deflection angle, receiver and the catoptron and the number of receiver.Because flashlight is sent to strong-electromagnetic field by optical fiber and handles outward again, therefore can accomplish high pressure is insulated fully, and not be subjected to the interference of extraneous strong-electromagnetic field.Its volume of this device is little, and is subjected to external interference also less, is adapted to be mounted within high-tension switch cabinet etc.

The example 2 same stent-types that adopt, still a kind of light is at the device for carrying out said of the open architecture of free space propagation.As shown in Figure 2, aim at catoptron 5 by a branch of collimated light 4 that the light source outside strong-electromagnetic field 14 produces, reflected light 9 via catoptron 5 reflections shines on the receiver 15 that is installed in outside the strong-electromagnetic field coverage, receiver 15 is made up of a plurality of photodetectors, via photodetector light signal is converted into electric signal 20 and outputs to signal processing apparatus (17).Can draw the temperature of tested electrical equipment by the position of photodetector.This apparatus structure is simple, is adapted to be mounted within the bigger environment in space.

Example 3 as shown in Figure 4, the temperature-sensitive member adopts U type bimetallic strip 16, bimetallic strip two arms are connected and fixed with catoptron 5 and base 8 respectively.When temperature changed, the subtended angle of U-shaped structure can change, thereby changed the angle of the catoptron 5 that is attached thereto, and reached the purpose of sensing temperature.Its light channel structure and principle of work and example 1 or example 2 are roughly the same.

Example 4 as shown in Figure 5, the temperature-sensitive member adopts the support rack type bimetallic strip, support 16 is made up of two kinds of different metal supports of inter-adhesive thermal expansivity, be connected and fixed with catoptron 5 and base 8 respectively, with example 1 or example 2 similar, the principle of work of this embodiment same with above three examples roughly the same.

Claims

1. light-sensing temperature monitor, it is characterized in that a catoptron is installed on the temperature-sensitive member of being made by two kinds of thermal expansivity different materials, the temperature-sensitive member contacts with point for measuring temperature or is close as far as possible, a branch of collimated light is radiated on the catoptron, be received device acceptance from the light of mirror reflects, arrive by the receiver output signal and handle device.

2. by the described light-sensing temperature monitor of claim 1, it is characterized in that the temperature-sensitive member is that support (6) and the support (7) that two kinds of different thermal expansion coefficient materials are made constitutes.

3. by the described light-sensing temperature monitor of claim 1, it is characterized in that the temperature-sensitive member made by bimetallic strip, its form can be U type or support rack type.

4. by claim 1 or 2 described light-sensing temperature monitors, it is characterized in that incident light (19) is converted into collimated light (4) and shines on the catoptron (5) by being installed in lens (3) on the base (2) on the casing (12) via optical fiber (1), catoptron (5) is contained on support (6) and the support (7), two supports are fixed on the casing (12) by base (8), and the one side of the casing that links to each other with two supports is on the point for measuring temperature; From the direction of the light (9) of catoptron (5) reflection a series of receivers (10) according to certain spacing arrangement are set, these a series of receivers are fixedly mounted on the casing (12) by certain angle by base (11), each receiver is all connecting an optical fiber (13), and light signal (18) is transferred to treating apparatus (17) outside the coverage of strong magnetoelectricity field through optical fiber (13).

5. by claim 1 or 2 described light-sensing temperature monitors, it is characterized in that producing a branch of collimated light (4) by the light source outside the strong-electromagnetic field coverage (14) aims at catoptron (5), its reflected light (9) shines on the receiver (15) that is installed in outside the strong-electromagnetic field coverage, receiver can be made up of a plurality of photodetectors, via photodetector light signal is converted into electric signal (20) and outputs to treating apparatus (17).

6. by claim 1 or 3 described light-sensing temperature monitors, it is characterized in that the temperature-sensitive member is a U type bimetallic strip (16), its two arm links to each other with base (8) with catoptron (5) respectively.

7. by claim 1 or 3 described light-sensing temperature monitors, it is characterized in that the bimetallic strip (16) that the temperature-sensitive member is made up of two kinds of different metals of inter-adhesive thermal expansivity, link to each other with base (8) with catoptron (5) respectively.