RU66037U1 - DIGITAL THERMOMETER - Google Patents

Abstract

The utility model can be used to measure water temperature in the waters of the seas and oceans. Objective: providing the possibility of detecting in the water area temperature zones of small transverse dimensions, promising to search for fishing objects. SUBSTANCE: digital thermometer containing a temperature sensor connected to a working unit containing an analog-to-digital converter, a microcontroller, a digital segment display, a power supply and a communication port with a computer, is characterized in that it is additionally equipped with a linear scale indicator configured to display the rate of change temperature, moreover, a thermal converter with a normal static conversion characteristic proportional to the temperature of the measurement object is used as a sensor, to which is connected in a three-wire circuit, while the measuring leads of the sensor through a measuring amplifier, preferably made in a bridge circuit, are connected to the input of an analog-to-digital converter, the output of which is connected to a microcontroller, the control leads of which are connected to the control inputs of a digital segment display, linear scale indicator and port connector for communication with the computer. In addition, the power source is made in the form of a step-down transformer equipped with means for connecting to an external power supply network and power inputs of the working elements of the device. In addition, the housing is made in a dust and water tight design and is equipped with sealing cable glands for connecting measuring, network and interface cables. In addition, at least a 12-bit converter is used as an analog-to-digital converter. 3 s.p. f-ly, 2 ill.

Description

The utility model relates to measuring technique and can be used to measure water temperature in the waters of the seas and oceans, for example, in the process of fishing pelagic fish or hydrometeorological studies.

A known digital thermometer containing a temperature sensor connected to a work unit containing an analog-to-digital converter, a microcontroller, digital segment displays, a power source (see. Description of the mounted meter MT-3000A, company Nissin Inc. (Japan), 2002). This device is designed to search for surface currents by measuring the temperature of sea water from a carrier vessel.

The disadvantages of the device are the limited range of information received from the device, which does not allow it to be used effectively for the purpose of independent search for accumulations of pelagic fish, including due to the inability to use the device with a computer.

A digital thermometer is also known, which contains a temperature sensor connected to a working unit containing an analog-to-digital converter, a microcontroller, a digital segment display, a power supply and a communication port with a computer (see Description of the Hydrological Meter GMU 2, design of TsKB GMP - State Register Number 21088- 01 (Central Design Bureau of Hydrometeorological Engineering).

The disadvantages of the device are the impossibility of its effective use for the independent search for accumulations of pelagic fish, due to the low measurement frequency (the shortest measurement interval is 5 minutes), which, taking into account the real speed of the fishing vessel, virtually eliminates the possibility of detecting temperature zones and vortices in the water sizes up to a kilometer, favorable for the accumulation of fishing facilities, or requires a sharp decrease in the speed of the vessel.

The present utility model is based on the task of ensuring the possibility of detecting local temperature sections and small vortices in the water area.

The technical result is expressed in increasing the speed of the device and the visualization of information about the speed and trend of changes in the temperature of sea water as the ship moves around the water. It also provides effective identification in the fishing region of local temperature sections and small vortices that are favorable for the formation of commercial concentrations of flocking pelagic objects.

The result is achieved in that a digital thermometer containing a temperature sensor connected to a working unit containing an analog-to-digital converter, a microcontroller, a digital segment display, a power supply and a communication port with a computer is characterized in that it is additionally equipped with a linear scale indicator configured to display the rate of change of temperature, and a thermal converter with a normal static conversion characteristic proportional to temperature is used as a sensor the measurement object, which is connected in a three-wire circuit, while the measuring leads of the sensor through a measuring amplifier, preferably made in a bridge circuit, are connected to the input of an analog-to-digital converter, the output of which is connected to a microcontroller, the control terminals of which are connected to the control inputs of the digital segment display , a linear scale indicator and a connector on the computer communication port. In addition, the power source is made in the form of a step-down transformer equipped with means for connecting to an external power network and power inputs of the working elements of the device. In addition, the housing is made in a dust and water tight design and is equipped with sealing cable glands for connecting measuring, network and interface cables. In addition, at least a 12-bit converter is used as an analog-to-digital converter.

A comparative analysis of the set of essential features of the proposed technical solution with the essential features of analogues and prototype indicates its compliance with the criterion of "novelty."

The combination of features of the utility model provides a solution to the problem - providing the ability to detect local temperature sections and small vortices in the water area.

Figure 1 shows a diagram of a device; figure 2 shows the appearance of the device.

The drawings show a temperature sensor 1 connected to a working unit 2 containing a measuring amplifier 3, an analog-to-digital converter 4, a microcontroller 5, a digital segment display 6, a power supply 7, a communication port with a computer 8, a linear dial indicator 9, cable 10, building 11.

As the listed nodes and components, well-known objects of similar purpose are used, performance characteristics satisfying the required parameters.

A thermocouple with a normal static conversion characteristic proportional to the temperature of the measurement object (for example, resistance thermocouples of the type TSP9201 100P or TSP9201 100M, which are connected in a three-wire circuit) was used as a sensor.

As the measuring amplifier 3, a known measuring amplifier is used, preferably made according to a bridge circuit.

As an analog-to-digital converter, at least a 12-bit converter of a known design, for example Burr-Brown ADS7822P, is used.

As the microcontroller 5, the well-known Atmel AT89C4051PI-24 microcircuit is used.

As a digital segment display 6, a well-known 4-digit digital indicator is used, for example, Kingbright DA56-11GWA (2 pcs.)

As a power source 7, a step-down transformer was used, equipped with means for connecting to an external power supply network (220v, 50Hz) and a rectifier and stabilizer supplying the working elements of the device.

As the communication port with computer 8, a standard computer (RS232C) COM port was used. The necessary state of the COM port lines: DTR - logical 0 (+12 V), RTS - logical 1 (-12 V), other control signals are not used.

As a linear scale indicator 9, a known indicator is used, for example, Kingbright DC-7G3WHA (2 pcs.), Configured to display the rate of temperature change.

The length of the cable 10 (measuring line) from the sensor 1 to the housing 11 does not exceed 150 m, the cross-sectional area of the conductors is from 0.5 to 2.5 mm ² , the resistance of each is not more than 2 Ohms, while, to eliminate interference from the operation of power marine electrical equipment the measuring cable is shielded (must have a metal braid). To reduce the error caused by the parasitic resistance of the conductors of the measuring line and its change in temperature, a three-wire sensor connection circuit is used.

The housing 11 is made in dust and water tight performance and is equipped with a sealed cable entries (not shown in the drawings), for connecting the measuring, network and interface cables. The cable clamp is located inside the housing 11 and is available for installation after removing the cover of the device. On the same block there are terminals for connecting a communication cable with a computer (RS-232C interface).

In this case, the sensor 1 through the cable 10 is connected to the measuring amplifier 3, the terminals of which are connected to the input of the analog-to-digital converter 4, the output of which 12 is connected to the microcontroller 5, the control terminals 13 of which are connected to the control inputs of the digital

segment display 6, a linear dial indicator 9 and a port 8 connection to a computer.

In addition, the power source 7 is connected to the power inputs of the working elements of the device (not shown in the drawings).

The sensor is installed on the site. To obtain reliable information about the temperature of sea water, the sensor should be installed as close as possible to the place of water intake, for example, on the pipe of the cooling system of the main or auxiliary engines. For ease of installation and dismantling, the sensor is installed in a protective sleeve equipped with a thread, which, in turn, is installed in a threaded (M20 × 1.5) hole made in the pipe wall (the details mentioned are not shown in the drawings). To improve thermal contact, a non-aggressive liquid with a low viscosity and high thermal conductivity, for example ethyl alcohol or distilled water, is poured into the sleeve.

Installation of the measuring cable 10 is carried out in one piece, without intermediate connections (which introduce unacceptable errors). Before connecting, all cable conductors should be tinned or crimped with insulated lugs to improve contact. The cable must be firmly sealed with the gland of the sensor housing. The screen braid of the cable should be grounded only at the grounding point of the meter body, the cable should not be grounded at the installation location of the sensor.

When the resistance of each conductor of the line is not more than 0.6 Ohms (cable with a cross-section of 3 × 1.5 mm ² and a length of 50 m), the static error introduced by the line does not exceed 0.06 ° C, therefore, zero adjustment of the device can be omitted. In the rest, before measurements, the device must be set up in a known manner with the measuring line connected.

The claimed device operates as follows.

When the sensor is turned on, a change in the temperature of the sea water (caused by the movement of the carrier vessel in the water area and the intersection of its sections of different temperature) leads to a change in resistance

sensor. To measure the temperature, the bridge principle of measuring the ohmic resistance of a thermal converter (sensor) with a normal static conversion characteristic (НСХ) of 100P (w = 1.391), 100M (w = 1.422) or Pt100 (w = 1.385) proportional to the temperature of the object is used.

Thus, a change in the temperature of the seawater leads to a change in the parameters of the electric current flowing through the sensor and taken as an analog signal. This signal enters the measuring amplifier 3, from where, after amplification and filtering, it enters the analog-to-digital converter 4, where it is digitized and transmitted to the microcontroller 5, which recalculates it into the temperature and the rate of its change in time.

After processing, the data is transmitted to digital segment displays, a linear scale indicator and a communication port with a computer. In this case, the digital display shows the current temperature value, and the scale of the linear scale indicator, located under the digital display, shows the direction and rate of temperature change (to the left - decrease, to the right - increase). On a scale, you can also quickly estimate the speed (1 segment - 0.03 ° C / min, 5 - 0.25 ° C / min, 10 (full scale) - more than 0.5 ° C / min).

The device allows, without conducting long-term observation of temperature values, to determine the nature of its change, and helps in finding the necessary temperature sections and vortices when searching for fishing objects - clusters of flocked pelagic fishing objects.

The device can transfer data in NMEA 0183 format to Windows - compatible computer via a standard computer RS232C COM port. For this, it is necessary to connect the device according to the “Connection Diagram” with a free COM port of the computer.

The computer may use an electronic cartographic information system or program that allows for long-term

recording and displaying a graph of temperature over time, for example, “Temperature Trajectory (ThermoTrack)”.

Claims (4)

1. A digital thermometer containing a temperature sensor connected to a work unit containing an analog-to-digital converter, a microcontroller, a digital segment display, a power supply and a communication port with a computer, characterized in that it is additionally equipped with a linear dial indicator configured to display the rate of change temperature, moreover, a thermal converter with a normal static conversion characteristic proportional to the temperature of the measurement object, which connected by a three-wire circuit, while the sensor’s test leads through a measuring amplifier, preferably made by a bridge circuit, are connected to the input of an analog-to-digital converter, the output of which is connected to a microcontroller, the control leads of which are connected to the control inputs of a digital segment display, linear scale indicator and computer communication port connector. 2. The digital thermometer according to claim 1, characterized in that the power source is made in the form of a step-down transformer equipped with means for connecting to an external power network and power inputs of the working elements of the device. 3. The digital thermometer according to claim 1, characterized in that the housing is made in a dust and water tight design and is equipped with a sealed cable entries for connecting measurement, network and interface cables. 4. The digital thermometer according to claim 1, characterized in that at least 12-bit converter is used as an analog-to-digital converter.