RU2448335C2 - Thermistor chain - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: thermistor chain has series-arranged temperature sensors connected to each other by a flexible cable, which provides electrical connection of the temperature sensors, a socket for connecting to a data reading, storage, processing and display device, wherein each temperature sensor is in a protective housing.

EFFECT: shorter thermal reaction time, high measurement accuracy and reliability and possibility of widening the field of use.

14 cl, 2 dwg

Description

FIELD OF THE INVENTION

The invention relates to thermometry, namely to temperature sensors, and is intended for simultaneous measurement of temperature at several points of the object, the location of which is determined by the design of the object, and is also intended for field determination of the temperature of soils, where it is necessary to obtain specific data on the temperature of frozen, freezing and thawing soils .

State of the art

A device for researching wells with a gradient thermometer is known. The device contains two identical series-connected and placed along the axis of the well at a given distance thermosensitive resistors, the first and second. A power source and a third constant resistor are connected to the upper end of the first resistor, and a power source and a fourth constant resistor are connected to the lower end of the second resistor; between the connection points of the third and fourth constant resistors and the first and second thermosensitive resistors, a recording device is included. Resistors third and fourth are balancing. The temperature difference between the first and second thermosensitive resistors is recorded [1].

The disadvantage of this device is the presence of balancing resistors that upset the balance with significant changes in temperature, and registration of only one component of the temperature field - along the axis of the well.

A device for thermal logging of wells is known, comprising three identical heat-sensitive sensors arranged along the axis of the well at a predetermined distance to measure a second temperature difference, the first, second and third. The thermosensitive sensors are identical and include four identical thermosensitive resistors combined into thermosensitive bridges. The difference in the imbalances of the heat-sensitive bridges is proportional to the second temperature difference, and the sum of their imbalances is proportional to the first difference; also all thermosensitive resistors are used to measure the absolute temperature of the medium in which the probe is located. The first temperature difference depends both on a constant change in temperature along the wellbore and on its local changes. The second temperature difference depends only on local changes in temperature [2].

The disadvantages of the device are a narrow scope, low measurement accuracy, redundancy of equipment, the use of indirect methods of measuring one dependence on another.

The closest analogue of the claimed invention is a device for monitoring temperatures in an extended object, containing a thermal suspension consisting of temperature sensors in series located in a protective casing of a small diameter, a control microcontroller, a signal converter, non-volatile memory, a real-time clock, a solver, a task unit initial parameters, built-in power supply, and data transmission interface, as well as equipped with a seal, pre designated to exclude ingress of ambient air into the borehole during the measurement. The casing is made in the form of a removable polymer thick-walled sheath of a self-supporting cable [3].

The disadvantage of this device is the long time of the thermal reaction due to the presence of a polymer thick-walled shell in which the thermal suspension is located, as well as the low tightness of the thermal suspension in the absence of a polymer thick-walled shell, which leads to a failure of the device in conditions of increased dust and moisture.

SUMMARY OF THE INVENTION

The present invention is directed to the creation of a thermal braid (see Appendix 1), which is a device for multi-zone temperature measurement, which would overcome the disadvantages of the prior art.

By means of the present invention, a technical result is achieved consisting in increasing the measurement accuracy and reliability, as well as in the possibility of an extended range of use.

To solve the problem and achieve the technical result, a thermocosa is proposed, which contains temperature sensors in series located in a protective case, each temperature sensor is made on a printed circuit board in a separate protective metal case and contains a correction factor, the temperature sensors are connected by a flexible cable, made in a polymer shell, the protective metal casing of each temperature sensor is equipped with polymer sleeves at the edges, which with attached to the cable by means of sealing and deformation along the contour, while at one end there is a connector for connecting to a reader, storage, processing and display of data.

A feature of the claimed braid is that on the printed circuit board can be located electronic components or a digital sensor, together with which the printed circuit board can be enclosed in a protective polymer shell.

Another feature of the claimed braid is that the polymer sheath of the cable can be either organosilicon or polyvinyl chloride, and polytetrafluoroethylene, and rubber, and polyethylene.

Also, another feature of the claimed thermal braid is that the protective metal housing of the temperature sensor may have a circular cross section or be in the form of a regular polygon. Polymer bushings can be made of rubber or organosilicon material.

And also another feature of the claimed thermal braid is that the last temperature sensor has a device for securing the load, providing straightening of the braid in a vertical position.

Brief Description of the Drawings

The invention is illustrated by drawings in which the same or similar elements are provided with the same reference position.

Figure 1 is a side view of the thermocosa of the present invention.

Figure 2 shows the protective housing in the context of figure 1.

Detailed Description of the Invention

The thermocosa of the present invention can be implemented in various embodiments.

However, in all these variants of the thermocosa, as shown in Fig. 1, it contains temperature sensors 1 located in series located in the protective casing 2 (see Fig. 2), each temperature sensor 1 is made on the printed circuit board 3 in a separate protective metal casing 2 and contains a correction factor, temperature sensors 1 are interconnected by a flexible cable 4 made in a polymer sheath, the protective metal housing 2 of each temperature sensor 1 is equipped with polymer sleeves 5 at the edges, which are fastened to the cable 4 with oschyu compaction and the deformation contour, wherein at one end of the connector 6 disposed to connect to a reading device, storing, processing and displaying data.

On the printed circuit board 3 can be located electronic components 7 or a digital sensor 7, together with which the printed circuit board 3 can be enclosed in a protective polymer shell 8, which provides additional tightness of the structure (see figure 2). The conclusions 9 of the cable 4, the electronic components 7 or the digital sensor 7 can be connected to the printed circuit board 3 by soldering.

Cable 4, made in a polymer sheath, can be made both in organosilicon and in polyvinyl chloride, and in polytetrafluoroethylene, and in rubber, and in a polyethylene sheath.

The method of fastening the protective metal casing 2 with the cable 4 and the bushings 5 (see figure 2) by means of sealing and deformation along the contour to ensure the tightness of the structure can be implemented by rolling. The polymer sleeve 5 may be made of rubber or organosilicon material. The bushings 5 ensure the tightness of the structure and electrical connections.

The cross-sectional shape of the protective metal housing 2 may be in the form of a circle or a regular polygon.

The last temperature sensor 1 may have a device for securing the load (not shown in the drawing), which ensures straightening of the braid in a vertical position.

Thermocosa performs simultaneous temperature measurement at several points of the object, the location of which is determined by the design of the object, at various distances with a certain step using a device for reading, storing, processing and displaying data.

As an object there can be pipelines, extended objects, for example, any wells in various soils, both in frozen soils, and in frozen and thawing ones.

Thermocosa of the present invention can work as follows.

Thermocosa is located in the object, the connector is located in an accessible place for connecting it to a reader, storage, processing and display of data. Temperature sensors measure the temperature of an object, convert the measured signal to digital, with each temperature sensor containing a correction factor and marking. The measurement results and correction coefficients from the temperature sensors are fed to a data reading, storage, processing and display device, where the received data are read and processing and their transmission to the indicator of the data reading, storage, processing and display device and personal computer using the appropriate program.

Thermocosa power is supplied from a device for reading, storing, processing and displaying data.

Thus, the braid of the present invention provides the claimed technical result, since the presence of a correction factor in each temperature sensor increases the accuracy of the measurement. The use of a flexible cable, bushings and fastening them with a protective housing by means of sealing and deformation along the contour increases the reliability, tightness of the structure, and also makes it possible to use the extended range of use of the braid.

Although the present invention has been described and shown in the accompanying drawings by its exemplary embodiments, this description and drawings are purely illustrative. Specialists understand that it is possible to make various modifications, additions and clarifications without departing from the essence and scope of the present invention, expressed in the attached claims taking into account equivalents.

Information sources

1. Pozin L.Z. Well research with a gradient thermometer. Exploration and production geophysics. - M., Gostoptekhizdat, 1969.

2. Patent No. 2314416, ЕВВ 47/06, G01K 7/20. "Device for thermal logging of wells", publ. 2008 year

3. Patent No. 75692, ЕВВ 47/12, G01K 7/14. "Device for monitoring temperatures in an extended object", publ. 2008 year

Annex 1

Applicability of the term "braid":

1. thermistor chain - a garland of thermistors, a braid

(Large English-Russian Polytechnical Dictionary. / Ed. By Prof. V.V. Butnik: In 3 vols. - More than 600,000 terms. - M .: "ETS", 1999. - T.3).

2. The scientific journal "Cryosphere of the Earth", 2006, vol. X, No. 4, p. 12.

Pavlov A.V. "Evaluation of errors in measuring soil temperature in shallow wells under continuous permafrost conditions."

3. http://www.ikz.ru/biblioteka/materialy-konferencii/folder. 2009-11-19.2752593878

Materials of the International Conference "Cryogenic Resources of the Polar and Mountain Regions. Status and Prospects of Engineering Permafrost" (Tyumen, 2008, p. 147).

4. http://www.securpress.ru/model.php?m=38&c=121

5. http://www.dorip.ru/cat/cat8.htm

Claims (14)

1. A thermobox containing temperature sensors in series located in a protective case, characterized in that each temperature sensor consists of a printed circuit board and electronic components located on it in a separate protective metal case and has a correction factor, the temperature sensors are connected by a flexible cable, made in a polymer shell, the protective metal casing of each temperature sensor is equipped with bushings at the edges that are fastened to the cable with a seal and def rmatsii contour, wherein termokosa comprises a connector for connection to a readout device, storing, processing and displaying data. 2. Thermocosa according to claim 1, in which the temperature sensor is a digital sensor. 3. Thermocosa according to claim 1, in which the cable is made in an organosilicon sheath. 4. Thermocosa according to claim 1, in which the cable is made in a polyvinyl chloride sheath. 5. Thermocosa according to claim 1, in which the cable is made in a polytetrafluoroethylene sheath. 6. Thermocosa according to claim 1, in which the cable is made in a rubber sheath. 7. Thermocosa according to claim 1, in which the cable is made in a polyethylene sheath. 8. Thermocosa according to claim 1, in which the sleeve is made of rubber. 9. Thermocosa according to claim 1, in which the bushings are made of organosilicon material. 10. Thermocosa according to claim 1, in which the printed circuit board together with the electronic components located on it is enclosed in a protective polymer shell. 11. Thermocosa according to claim 2, in which the digital sensor is enclosed in a protective polymer shell. 12. Thermocosa according to claim 1, in which the last temperature sensor has a device for securing the load, providing straightening thermocosa in a vertical position. 13. Thermocosa according to claim 1, in which the protective metal housing has a circular cross section. 14. Thermocosa according to claim 1, in which the protective metal casing has a cross section in the form of a regular polygon.

Images