JP2006177769A - Temperature sensor for liquid vessel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a temperature sensor for liquid vessel for reducing errors produced at a temperature measurement result by a temperature measuring resistor, and for accurately measuring the actual liquid temperature. <P>SOLUTION: The liquid vessel temperature sensor partially constitutes the bottom face or a side face of a vessel, measures the temperature of the liquid in the vessel, and is attached to an attachment hole provided on the bottom face or the side face of the vessel for accommodating the liquid. The liquid vessel temperature sensor comprises an attachment screw for attaching the sensor to the attachment hole, a lead wire inserted into an insertion hole, provided in the attachment screw and protruding from a tip of the attachment screw, the resistance thermometer provided at a tip of the protruding lead wire, a protective thermal insulation resin for coating the lead wire protruding from the tip of the attachment screw and a side face of the resistance thermometer, and a protective cylinder for surrounding at least a part of the lateral circumference of the protecting thermal insulation resin. The protective thermal insulation resin is formed so as to have substantially equal diameter as the diameter of an attachment section body or larger. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a liquid container temperature sensor for measuring a liquid temperature in a predetermined container, and more particularly to a liquid container temperature sensor attached to a hole provided in a predetermined part of the container.

  Conventionally, as shown in FIG. 3, a liquid container temperature sensor 12 is known which is attached to a hole provided in a bottom part or a side part of a container 11 into which a liquid is placed and measures a liquid temperature in the container.

  The liquid container temperature sensor 12 includes an attachment portion main body 13 for attachment to the container, a metal outlet 14 provided at the base end portion of the attachment portion main body 13, and a protection provided on the upper surface of the attachment portion main body 13. A tube 15, a lead wire 16 inserted through an insertion hole provided in each of the attachment body 13, the metal outlet 14, and the protection tube 15, and a resistance temperature detector provided at the tip of the lead wire 16. 17 and a protective heat-insulating resin 18 provided inside the protective cylinder 15 so as to cover the lead wire 16 and the resistance temperature detector 17. And the temperature measuring part of the temperature measuring resistor 17 and the upper surface of the protective heat-insulating resin 18 are arranged so as to constitute a part of the bottom part or the side part of the container.

  However, the conventional liquid container temperature sensor has a problem that heat is conducted from the container 1 or the outside air to the lead wire 16 and an error occurs in the temperature measurement result by the temperature measuring resistor 17 due to the heat.

  In view of the above problems, an object of the present invention is to provide a liquid container temperature sensor capable of measuring an actual liquid temperature accurately with little error occurring in a temperature measurement result by a resistance temperature detector. .

  In order to solve the above-mentioned problem, the invention according to claim 1 is attached to a mounting hole provided in a bottom surface or a side surface of a container for storing a liquid, and constitutes a part of the bottom surface or the side surface of the container to form the inside of the container. A liquid container temperature sensor for measuring a liquid temperature, a mounting portion main body to be attached to the mounting hole, a lead wire which is inserted through an insertion hole provided in the mounting portion main body and protrudes from an upper surface of the mounting portion main body, A resistance temperature detector provided at the tip of the protruding lead wire, a protective heat insulating resin covering the side surface of the lead wire and the resistance temperature detector protruding from the upper surface of the mounting body, and a side peripheral surface of the protective heat insulating resin A protective cylinder surrounding at least a part of the protective heat insulating resin, and the protective heat insulating resin is formed to have a diameter substantially equal to or larger than the diameter of the mounting portion main body.

  The invention according to claim 2 is attached to a mounting hole provided on a bottom surface or a side surface of a container for storing a liquid, and constitutes a part of the bottom surface or the side surface of the container to measure a liquid temperature in the container. A liquid container temperature sensor, a mounting portion main body to be mounted in the mounting hole, a lead wire that is inserted through an insertion hole provided in the mounting portion main body and protrudes from the upper surface of the mounting portion main body, and the protruding lead wire A resistance temperature sensor provided at the tip, a lead wire protruding from the upper surface of the mounting body and a protective heat insulating resin covering the side surface of the resistance temperature detector, and at least a part of the side peripheral surface of the protective heat insulating resin And a protective cylinder that surrounds the protective heat insulating resin. The protective heat insulating resin has a diameter of 18 mm or more and 50 mm or less.

  According to a third aspect of the present invention, in the liquid container temperature sensor according to the first or second aspect, the attachment body is formed of a resin.

  According to the first aspect of the present invention, the protective heat insulating resin is formed to have a diameter substantially equal to the diameter of the mounting portion main body or larger than the diameter of the mounting portion main body. Therefore, it is possible to prevent the heat from being conducted, and the error generated in the temperature measurement result by the resistance temperature detector is reduced, so that the actual liquid temperature can be accurately measured.

  According to the second aspect of the present invention, since the diameter of the protective heat insulating resin is 18 mm or more and 50 mm or less, heat insulation between the container or the outside air and the lead wire can be efficiently achieved, and the temperature measurement The error generated in the temperature measurement result by the resistor is reduced, and the actual liquid temperature can be measured accurately.

  According to the third aspect of the present invention, since the mounting portion main body is formed of resin, the heat insulation effect on the lead wire inside the mounting screw is increased, so that the actual liquid temperature can be measured more accurately. .

  Hereinafter, the present invention will be described based on the illustrated embodiments.

  Referring to FIG. 1, reference numeral 1 denotes a container for storing a liquid, which is configured to be able to heat and cool the liquid in the container 1, and the liquid in the container 1 by a predetermined stirring device (not shown). Can be stirred.

  The container 1 has a triple structure, and a jacket portion 1b is provided outside the liquid storage portion 1a that stores the liquid, and a heat insulating portion 1c is further provided outside the jacket portion 1b. In the jacket part 1b, a heat medium or a refrigerant circulates through the inflow pipe 2a and the outflow pipe 2b, thereby heating or cooling the liquid in the liquid storage part 1a. Moreover, the heat insulating material 3 is enclosed in the heat insulating part 1c, and is configured to block conduction of heat from the outside air.

  As shown in FIG. 2, the bottom of the container 1 is provided with a mounting hole 1d that allows communication between the inside of the liquid storage portion 1a and the outside of the heat insulating portion 1c. A temperature sensor 4 is attached to the mounting hole 1d. It has been.

  The temperature sensor 4 includes a mounting body 5, a metal outlet 6, a lead wire 7, a resistance temperature detector 8, and a protective heat insulating resin 9.

The attachment body 5 is formed of a known resin having high heat resistance such as PTFE. A flange portion 5a is formed on the upper portion of the attachment portion main body 5, and the flange portion 5a comes into contact with the outer surface of the jacket portion 1b when attached to the container 1. An O-ring groove 5b is formed in the flange part 5a, and an O-ring 10a is attached to the O-ring groove 5b to seal the liquid in the liquid storage part 1a from leaking out. Further, the upper surface 5c of the attachment portion body is provided with a protective cylinder 5d, and a screw groove 5e is formed on the outer peripheral surface of the protective cylinder 5d. The thread groove 5e corresponds to the thread groove 1d ₁ formed on the inner peripheral surface of the mounting hole 1d, and is configured to be fitted while turning the mounting portion main body 5 into the mounting hole 1d. Yes.

  The metal outlet 6 is provided on the base end side 5 f of the attachment body 5, and a lead wire 7 is introduced from the metal outlet 6. The lead wire 7 introduced from the metal outlet 6 is inserted into an insertion hole 5g provided in the attachment portion main body 5 and protrudes from the attachment portion main body upper surface 5b. A resistor 8 is fixed.

  The protective heat insulating resin 9 covers the side surface 7 a of the lead wire 7 and the side surface 8 a of the resistance temperature detector 8, and the diameter thereof is substantially equal to the diameter of the mounting portion main body 5 and the outer peripheral surface of the protective cylinder 5. It is formed slightly smaller than the diameter. The diameter of the protective heat insulating resin 9 is preferably 18 mm or more and 50 mm or less. This is based on experimental data in which the effect of heat insulation becomes significant when the diameter of the protective heat insulating resin 9 is around 18 mm and is saturated around 50 mm.

  Further, an O-ring groove 9b is formed in the upper portion of the protective heat insulating resin side surface 9a, and an O-ring 10b is attached to the O-ring groove 9b to seal the liquid from the liquid storage portion 1a so as not to leak. ing.

  The temperature measuring surface 8b of the temperature measuring resistor 8 and the upper surface 9c of the protective heat insulating resin 9 constitute a part of the bottom surface of the container 1, that is, the inner surface of the liquid storage portion 1a.

  As a result of configuring the temperature sensor 4 as described above, the difference between the temperature measured by the temperature sensor 4 and the actual liquid temperature in the conventional apparatus described in the background art is 5 ° C. or higher. The difference between the temperature measured by the temperature sensor 4 and the actual liquid temperature was within 1 ° C.

  Moreover, in the said embodiment, although the structure which attaches the temperature sensor 4 to the bottom face of the container 1 was demonstrated, this invention is not limited to this, A temperature sensor 4 may be attached anywhere as long as it is a location which contacts a liquid. good. For example, the side surface of the container 1 may be used.

  In the above embodiment, the protective heat insulating resin 9 is formed to have a diameter substantially equal to the diameter of the mounting portion main body 5, but the present invention is not limited to this, and the protective heat insulating resin 9 is attached to the mounting portion main body. You may form in the diameter larger than the diameter of 5.

  In addition, this invention is not limited to the thing of the said embodiment, A various change is possible as needed.

The side view which shows the liquid container with which the liquid container temperature sensor which concerns on embodiment of this invention was attached Sectional drawing which shows the liquid container temperature sensor which concerns on embodiment of this invention Sectional drawing which shows the conventional liquid container temperature sensor

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Container 5 Attachment part main body 7 Lead wire 8 Resistance temperature sensor 9 Protective heat insulation resin

Claims (3)

A liquid container temperature sensor that is attached to a mounting hole provided on a bottom surface or a side surface of a container that contains liquid and that configures a part of the bottom surface or side surface of the container to measure a liquid temperature in the container,
A mounting portion main body to be attached to the mounting hole, a lead wire that is inserted through an insertion hole provided in the mounting portion main body and protrudes from the upper surface of the mounting portion main body, and a temperature measurement provided at the tip of the protruding lead wire A resistance body, a lead wire protruding from the upper surface of the mounting portion main body and a protective heat insulating resin covering the side surface of the resistance temperature detector, and a protective cylinder surrounding at least a part of the side peripheral surface of the protective heat insulating resin;
A liquid container temperature sensor, wherein the protective heat insulating resin is formed to have a diameter substantially equal to or larger than a diameter of the mounting portion main body. A liquid container temperature sensor that is attached to a mounting hole provided on a bottom surface or a side surface of a container that contains liquid and that configures a part of the bottom surface or side surface of the container to measure a liquid temperature in the container,
A mounting portion main body to be attached to the mounting hole, a lead wire that is inserted through an insertion hole provided in the mounting portion main body and protrudes from the upper surface of the mounting portion main body, and a temperature measurement provided at the tip of the protruding lead wire A resistance body, a lead wire protruding from the upper surface of the mounting portion main body and a protective heat insulating resin covering the side surface of the resistance temperature detector, and a protective cylinder surrounding at least a part of the side peripheral surface of the protective heat insulating resin;
A liquid container temperature sensor, wherein the diameter of the protective heat insulating resin is 18 mm or more and 50 mm or less. The liquid container temperature sensor according to claim 1, wherein the attachment main body is formed of resin.

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