RU77683U1 - TEMPERATURE TEMPERATURE SENSOR IN PIPE - Google Patents

Abstract

The utility model relates to the field of instrumentation, in particular, to temperature sensors for measuring it in pipes of small diameter. The task is to simplify manufacturing technology while expanding the capabilities of the sensor and increasing the accuracy of measurements. The temperature sensor contains a housing 1 and an immersion probe 2. In this case, the immersion probe 2 is a thin, hard, straight metal rod. It can be installed in various elements (nodes) of the pipeline heating system: in the tee 3, in particular, against the flow, in the bend of the pipe in the installation sleeve 4, for example, against the flow of the stream, in the angle bend 5 or in the pipe 6 at a small angle to its longitudinal axis. In addition, the immersion probe 2 can be placed in the insert 7 - "thermal lock" having a fin 10. The implementation of the immersion probe in the form of a thin rigid straight rod in combination with its installation in one of the elements (nodes) of the pipeline system makes it possible to simplify its technology manufacture and make the immersion part longer, which makes it possible to bring the temperature of the sensitive element closer to the ambient temperature and thereby increase the measurement accuracy, expanding the operational capabilities of the sensor. 6 pf, 7 ill.

Description

The utility model relates to the field of instrumentation, in particular, to temperature sensors for measuring it in pipes of small diameter.

A known temperature sensor with a flexible probe, presented in the catalog for 2004 and owned by PC "Theseus" (see site).

The known sensor can be placed in a pipe with a diameter smaller than the length of the probe, which, being made of a flexible cable, can be bent in the middle part up to folding into a loop.

However, there are restrictions on the diameter of the bend: it should not be less than five times the diameter of the cable. In addition, the bend should be located no closer than 150 mm from the working end of the probe. As a result, the use of such a sensor for measuring temperature in pipes with a diameter of less than 175 mm leads to an increase in the error, since the ambient temperature affects the measurement accuracy.

A known temperature sensor of the coolant in the pipe described in the same patent of the Russian Federation No. 2282835 according to Cl. G01K 7/04, c. 10/18/04., Op.27.08.27.

The known sensor comprises a housing and a flexible probe with a heat-sensitive element, the sensor being equipped with a curved sleeve whose length exceeds the radius of the pipe, a probe is inserted into the sleeve connecting the electronic circuitry located in the sensor case with a heat-sensitive element located on the axis of the pipe.

A disadvantage of the known sensor is that its manufacture is technologically difficult; In addition, its use is limited due to the complex shape of the sleeve. In addition, the placement of a flexible probe, which is an immersion probe, in a curved sleeve does not make it possible to make it longer and closer to the measurement site, which reduces the accuracy of the measurements.

The objective is to simplify manufacturing technology while expanding the capabilities of the sensor and increasing the accuracy of measurements.

The problem is solved in that, in the temperature sensor of the coolant in the pipe containing the housing and the immersion probe with a heat-sensitive element at its end, according to the USEFUL MODEL, the immersion probe is made in the form of a thin rigid rod and is installed in one of the elements of the pipeline system.

In this case, the immersion probe can be installed in the tee or in the riser, or in the elbow, or in the pipe at an angle to its longitudinal axis.

The implementation of the immersion probe in the form of a thin rigid straight rod in combination with its installation in one of the elements (nodes) of the pipeline system makes it possible to simplify the manufacturing technology and make the immersion part longer, which makes it possible to bring the temperature of the sensitive element closer to the ambient temperature and thereby increase measuring accuracy, expanding the operational capabilities of the sensor.

In addition, the heat-sensitive element can be located in the liner, which is a "thermal lock" and having fins.

This is caused by the following.

When the sensor is installed in the flow, stagnant zones with a low coolant temperature are formed at the root of the immersion probe. These zones draw heat from the immersion probe of the sensor and, as a result, increase the difference between the temperature of the measured flow.

To weaken the influence of stagnant zones, a heat-conducting insert can be used, which serves as a “thermal lock”. The heat-insulating part of the lock prevents heat transfer to the environment, the heat-conducting part transfers heat from the flow to the probe, bringing the temperature of the measuring element - the immersion probe closer to the flow temperature, which increases the measurement accuracy. Flow side

The liner has fins for more efficient heat exchange with the medium.

The utility model has novelty, differing from the prototype by such essential features as the implementation of an immersion probe in the form of a thin rigid rod and the installation of an immersion probe in one of the elements of the heating pipeline system, ensuring the achievement of a given result.

The inventive temperature sensor can be widely used in measurement technology, and therefore meets the criterion of "industrial applicability".

The utility model is illustrated by drawings, which are presented on:

- figure 1 - installation of the immersion probe in the tee against the flow;

- figure 2 - installation of the immersion probe in the bend of the pipe against the flow;

- figure 3 - installation of the immersion probe in the elbow;

- figure 4 - installation of the immersion probe in the pipe at a small angle;

- figure 5 - stagnant zone in the pipe;

- 6 - design of the liner;

- Fig.7 - installation of an immersion probe in a thermal lock;

The temperature sensor includes a housing 1 and an immersion probe 2. In this case, the immersion probe 2 is a thin rigid metal rod. It can be installed in various elements (nodes) of the pipeline heating system: in the tee 3, in particular, against the flow, in the bend of the pipe in the installation sleeve 4 against the flow, in the elbow 5 or in the pipe 6 at a small angle to its longitudinal axis . In addition, the immersion probe 2 can be placed in the insert 7 - "thermal lock". While the liner 7 (Fig.6) contains a heat-insulating shirt 8 and a heat-conducting sleeve 9 with fins 10.

Compared with the prototype of the inventive sensor is more accurate, simple in manufacturing technology and has wider operational capabilities.

Claims (6)

1. The temperature sensor of the coolant in the pipe, comprising a housing and an immersion probe with a heat-sensitive element at its end, characterized in that the immersion probe is made in the form of a rigid thin rod and is installed in one of the elements of the pipeline heating system. 2. The sensor according to claim 1, characterized in that the immersion probe is installed in the tee against the flow. 3. The sensor according to claim 1, characterized in that the immersion probe is installed in the bend of the pipe against the flow. 4. The sensor according to claim 1, characterized in that the immersion probe is installed in an angled outlet. 5. The sensor according to claim 1, characterized in that the immersion probe is installed in the pipe at an angle to its longitudinal axis. 6. The sensor according to claim 1, characterized in that the heat-sensitive element is located in the liner, which is a "thermal lock" and having fins.