KR101279131B1 - A thermometer - Google Patents

Abstract

The present invention relates to a temperature measuring device, and more particularly, to a temperature measuring device for measuring a temperature of a cylinder exhaust gas of an internal combustion engine for ships.
The temperature measuring instrument of the present invention includes a housing 10 having a thermometer substrate 20 on the surface of which displays temperature information by the temperature sensor 82 as a number; A six-sided body (60) fixed to the housing and attached with a receptacle (70) for transmitting external power and temperature information; A guide rod (50) fixed to the six-sided body to guide and protect the temperature sensor rod; And a sensor part including a temperature sensor rod 40 inserted into the guide rod and a temperature sensor head 30 detachable from one end of the housing to one end of the temperature sensor rod, wherein the sensor part is detachable and fastened from the housing. It features.

Description

Temperature measuring instrument {A THERMOMETER}

The present invention relates to a temperature measuring device, and more particularly, to a temperature measuring device for measuring a temperature of a cylinder exhaust gas of an internal combustion engine for ships.

In general, a temperature measuring device for measuring the temperature of the cylinder exhaust gas of the marine internal combustion engine is commonly used for both local and remote in one temperature sensor.

Such a structure had a disadvantage in that one local temperature sensor could be inoperable when both a malfunction and a power failure occurred.

In addition, when the sensor causes a malfunction, the entire temperature measuring instrument needs to be replaced, and thus, a large replacement cost is consumed, which is uneconomical, and the work efficiency of the replacement work is lowered.

Korean Patent Application No. 10-2007-0028255 "mechanical and electronic combined thermometer measuring device" has a problem that the temperature is measured by a temperature sensor, has the above disadvantages.

The present invention has been made to solve the above problems, an object of the present invention can easily replace the sensor unit when a malfunction of the temperature sensor, even if some of the sensor causes a malfunction of any of the local temperature measurement or remote temperature measurement One is to provide a temperature meter capable of thermometer measurement.

In order to achieve the above object, the temperature measuring instrument of the present invention for measuring the temperature of the cylinder exhaust gas of the internal combustion engine for ships is formed on the front surface of the thermometer substrate 20 for displaying the temperature information by the temperature sensor 82 numerically A housing 10; A body 60 fixed to the housing and having a receptacle 70 for transmitting external power and temperature information; A guide rod (50) fixed to the six-sided body to guide and protect the temperature sensor rod; And a sensor unit including a temperature sensor rod 40 inserted into the guide rod and a temperature sensor head 30 coupled to one end of the temperature sensor rod and fastened to the rear surface of the housing, wherein the sensor unit is separated from the housing. It can be fastened.

According to a preferred embodiment of the present invention, the temperature measuring instrument of the present invention amplifies the temperature information of the first temperature sensor 82a, the second temperature sensor 82b, and the first temperature sensor interpolated in the temperature sensor rod. And a first amplifying and linearizing unit 84a for linearization, an A / D converter unit 87 for digitally changing a signal transmitted from the first amplifying and linearizing unit, and an output signal of the A / D converter unit. Amplifying and linearizing the display unit 88, the first power supply unit 90a for supplying power to the first amplification and linearization unit, the A / D converter unit and the display unit, and the temperature signal of the second temperature sensor A second amplification and linearization unit 84b, a V / I converter unit 89 for converting the voltage signal transmitted from the second amplification and linearization unit into a current signal, and the second amplification and linearization unit and V / And a second power supply unit 90b for supplying power to the I converter unit.

According to a preferred embodiment of the present invention, when the temperature sensor is a thermocouple sensor, temperature compensation parts 86a and 86b are further provided for temperature compensation for the signal output from the amplification and linearization part.

As described above, the temperature measuring instrument of the present invention includes two temperature sensors in the temperature sensor rod, and is used for local or remote, respectively, and can compare the two temperatures to check whether the temperature sensor is malfunctioning. Even if one temperature sensor malfunctions, the other temperature sensor can operate normally, allowing accurate temperature measurement.

In addition, since the temperature measuring device of the present invention can separate only the sensor unit from the housing, when the sensor unit causes a failure, only the sensor unit is replaced, not the entire measuring unit, thereby increasing workability and reducing costs.

1 is a front perspective view of a temperature meter, in accordance with a preferred embodiment of the present invention;
2 is a rear perspective view of a temperature meter, in accordance with a preferred embodiment of the present invention.
3 is a circuit diagram of a sensor unit of a temperature measuring instrument according to a preferred embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, it will be described in more detail the temperature measuring instrument of the present invention.

1 is a front perspective view of a temperature measuring instrument according to a preferred embodiment of the present invention, and FIG. 2 is a rear perspective view of the temperature measuring instrument.

1 and 2, the temperature measuring instrument of the present invention can immediately check the temperature in a large installation place, that is used for local (local) and at the same time, the control room (ex. Engine control room connected to the terminal connector 70) It is used for remote which can check and monitor the temperature in.

The configuration of the temperature measuring instrument of the present invention is basically, the housing 10, the thermometer substrate 20 is displayed, the receptacle 70 formed with a terminal connector, the guide rod 50 to protect the temperature sensor rod, the temperature sensor rod 40 And a sensor unit including a temperature sensor head 30.

The housing 10 has a cylindrical shape (not necessarily limited to this shape), and a thermometer substrate 20 is formed on the front surface of the housing 10 which is protected by a transparent material plate. The thermometer substrate 20 displays the temperature information measured by the temperature sensor in the sensor rod as a number (digital).

The receptacle 70 fixed to the rear side of the housing has a function for transmitting external power and temperature information. The temperature information is transmitted to an external control room or the like.

The guide rod 50 fixed to the six-sided body 60 to which the receptacle 70 is attached serves to guide and protect the temperature sensor rod 40. A fixing nut 55 is formed in the middle of the guide rod 50 to fix the temperature meter of the present invention to the thermowell.

The sensor unit is composed of a temperature sensor rod 40 and a temperature sensor head 30, two temperature sensors are installed in the temperature sensor rod 40, that is, local and remote temperature sensors.

The temperature sensor head and the temperature sensor rod can be easily fastened and detached at one end of the housing, thereby having an advantage in that the sensor unit can be easily separated from the housing when the sensor unit malfunctions.

3 is a circuit diagram illustrating a sensor unit of a temperature measuring instrument according to a preferred embodiment of the present invention.

Referring to FIG. 3, the temperature measuring device of the present invention measures the temperature by two temperature sensors embedded in the temperature sensor rod, that is, the first temperature sensor 82a and the second temperature sensor 82b, and thus the first temperature sensor. The temperature information measured by the 82a is displayed by the display unit 88 and used locally, and the temperature information measured by the second temperature sensor 82b is transmitted to an external control room and used for the remote.

The temperature information measured by the first temperature sensor 82a is amplified and linearized by the first amplification and linearization unit 84a. Then, after the digital conversion is performed by the A / D converter unit 87, the display unit 88 displays a number. The display unit 88 is the same as the thermometer substrate 20 of FIG. 1. The first power supply unit 90a supplies power to the first amplifying and linearizing unit 84a, the A / D converter unit 87, and the display unit 88.

The temperature information measured by the second temperature sensor 82b is amplified and linearized by the second amplification and linearization unit 84b. The voltage signal is converted into a current signal by the V / I converter section 89 and then transmitted to an external control room or the like. The second power supply unit 90b supplies power to the second amplifying and linearizing unit 84b and the V / I converter unit 89.

4-20 mA dc current flows through the terminal connected to the second power supply. The current value flowing in accordance with the temperature signal measured by the second temperature sensor is changed. For example, if the temperature measured by the second temperature sensor is 0 ° C, 4mA dc is, if it is 150 ° C, 8mA dc is; if it is 300 ° C, 12mA dc is; In the case of ℃, 20mA dc flows, the temperature information is transmitted to the outside, such as the engine control room. That is, the temperature information is transmitted as the amount of current flowing in the second power supply.

Meanwhile, the temperature compensators 86a and 86b are for compensating the temperature of the thermocouple sensor with respect to a reference value when the temperature sensors 82a and 82b in the temperature sensor rod are thermocouple sensors. That is, when the temperature sensors 82a and 82b are thermocouple sensors, temperature compensation is performed by adding output signals of the temperature compensators 86a and 86b to signals output from the amplification and linearization units 84a and 84b.

The temperature compensator is required when the temperature sensor is a thermocouple sensor, and the temperature compensator will not be necessary when the temperature sensor is a thermostat sensor and not a thermocouple sensor.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention may be embodied otherwise without departing from the spirit and scope of the invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention, but are intended to be illustrative, and the scope of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

** Explanation of symbols in the drawing **
10: housing 20: thermometer substrate
30: temperature sensor head 40: temperature sensor rod
50: guide rod 55: fixing nut
60: body
70: receptacle
82: temperature sensor 82a: first temperature sensor
82b: second temperature sensor
84: amplification and linearization
84a: first amplifying and linearizing unit
84b: second amplification and linearization section
86: temperature compensator 86a: first temperature compensator
86b: second temperature compensation unit
87: A / D converter section 88: display section
89: V / I converter section 90: power supply section
90a: first power supply unit 90b: second power supply unit

Claims (3)

In the temperature measuring instrument,
A housing 10 having a thermometer substrate 20 that displays temperature information by the temperature sensor 82 as a number on a front surface thereof;
A body 60 fixed to the housing to which a receptacle 70 for transmitting external power and temperature information is attached;
A guide rod (50) fixed to the body to which the receptacle is attached to protect the temperature sensor rod; And
Includes a sensor unit consisting of a temperature sensor rod 40 inserted into the guide rod, and a temperature sensor head 30 coupled to one end of the temperature sensor rod and fastened to the rear surface of the housing,
The sensor unit is characterized in that the detachable fastening in the housing. The method of claim 1,
The thermometer is
A first temperature sensor 82a, a second temperature sensor 82b interpolated in the temperature sensor rod,
A first amplifying and linearizing unit 84a for amplifying and linearizing temperature information of the first temperature sensor;
An A / D converter unit 87 for digitally changing a signal transmitted from the first amplifying and linearizing unit;
A display unit 88 for displaying an output signal of the A / D converter unit;
A first power supply unit 90a for supplying power to the first amplification and linearization unit, an A / D converter unit, and a display unit;
A second amplifying and linearizing unit 84b for amplifying and linearizing a temperature signal of the second temperature sensor;
A V / I converter unit 89 for converting the voltage signal transmitted from the second amplifying and linearizing unit into a current signal;
And a second power supply unit (90b) for supplying power to the second amplification and linearization unit and a V / I converter unit. The method of claim 2,
In the case where the first temperature sensor 82a and the second temperature sensor 82b are thermocouple sensors,
The first temperature compensator 86a for temperature compensation of the signal output from the first amplification and linearization unit 84a, and the temperature compensation for the signal output from the second amplification and linearization unit 84b. Temperature measuring instrument, characterized in that the second temperature compensation portion (86b) is further provided.

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