JPH01188786A - Device for preheating valve - Google Patents

Abstract

PURPOSE:To reduce the dispersion of temperature distribution and accurately detect the temperature inside a valve by housing a heater and a temperature measuring sensor in a valve driving stem and uniformly raising the temperature of inside structures. CONSTITUTION:A preheating heater 12 and a temperature measuring sensor 13 are built in a valve driving stem 5. The ambient temperature is measured by the temperature measuring sensor 13 and, when the measured value is below a defined temperature, the preheating heater 12 is heated. Thereby, the sticking of a valve and the breakage of equipment due to freezing can be prevented.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention is applicable to valves used for fluids that solidify at room temperature or valves used in cold regions that may be inoperable or damaged due to freezing of the fluid. This invention relates to a valve preheating device.

(Prior Art) Valves for fluids that solidify at room temperature and valves used in cold regions are equipped with a preheating device for thawing when frozen.

An example of such a valve provided with a preheating device will be described below using a liquid sodium valve for a fast breeder reactor.

FIG. 3 shows the structure of a sodium valve 1 for liquid sodium, which is a coolant for a fast breeder reactor.

The valve drive mechanism 4 and the valve body 6 are connected via a valve drive stem (hereinafter abbreviated as stem) 5. A bellows seal 11 is installed around the stem 5 to prevent liquid sodium from leaking to the outside or to prevent external air from entering into the liquid sodium.
This isolates sodium from the outside air.

Liquid sodium solidifies at room temperature, but if the stem 5 is driven with solidified sodium, the bellows seal 11 will be damaged and b1 seal IIi performance will be impaired. A lower limit temperature is set in advance, the temperature inside the valve is detected by a temperature measurement sensor, and when the measured value is below the lower limit temperature, the sodium inside the valve is heated. This heating sufficiently dissolves the solidified sodium.

As shown in FIG. 4, a conventional sodium valve preheating device connects the outer surface of the valve body 3 with a preheating heater 1
2, and the temperature of the sodium inside the valve body 3 was raised by heat conduction. The temperature of the sodium during preheating is indirectly detected by a temperature measurement sensor 13 provided on the outer surface of the valve body 3.

(Problems to be Solved by the Invention) However, the conventionally known preheating device described above has the following problems.

Because the temperature of the sodium inside the valve is raised indirectly by heat conduction from the outer surface of the valve body 3, variations in temperature distribution tend to occur in the internal structure (there was a risk that sodium may remain solid in some parts). .

Furthermore, since the structure is such that the internal temperature is indirectly measured by measuring the temperature on the outer surface of the valve body 3, the temperature inside the valve where the bellows seal 11 is arranged cannot be accurately detected. In order to prevent damage to the bellows seal 11, the lower limit temperature must be set higher than necessary.

For this reason, unnecessary heating may occur,
It does not directly meet the preheating purpose of protecting the bellows seal 11.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a valve preheating device that reduces variations in temperature distribution by uniformly increasing the temperature of internal structures, and also enables accurate detection of the temperature inside the valve. be.

(Means for Solving the Problems) In order to achieve the above object, a preheating device according to the present invention includes a heater and a temperature measuring sensor built into a valve driving stem.

That is, in the present invention, as shown in FIG. 2, a preheating heater 12 and a temperature measurement sensor 13 are built into the valve driving stem 5.
The ambient temperature is measured by a heater 12 for preheating if the measured value is less than a predetermined temperature.

(Example) An example of the present invention will be described below with reference to FIG.

In this embodiment, a sodium valve 1 for liquid sodium, which is a coolant for a fast breeder reactor, is illustrated, but it goes without saying that the present invention is not limited to this embodiment. For example, it can be used to dissolve fluids in valves used for fluids other than sodium that solidify at room temperature, and it can also be used to prevent freezing of valves used in cold regions, and for other general valves that require preheating. .

A sodium valve 1 is provided in the sodium line 2.

The movement of a valve drive mechanism 4 provided at one end of the valve body 3 is transmitted to the valve body 6 via a valve drive stem (hereinafter referred to as stem) 5 in the valve body 3 to open and close the valve. conduct.

A partition 7 is provided in the middle of the valve body 3, and the stem 5 passes through an id 8 provided in the partition 7.

The stem 5 and partition 7 on the side of the valve body 6 are each provided with 7 flange 9.10 for attaching a bellows, and a bellows seal 11 made of a gold R thin plate is interposed between both 7 langes 9.10. has been done.

The stem 5 includes a preheating heater 12 and a temperature measurement sensor 13 such as a thermocouple. Heater 12
The power supply cable 14 and the temperature measurement sensor 13 are taken out to the outside of the valve body 3 through the inside of the id 8, and a temperature compensation conductor 15 for transmitting a temperature signal is connected to the temperature measurement sensor 13 at a connection part 16. There is. And power supply cable 1
4 and the temperature compensation conductor 15 are connected to a relay terminal box 17 attached to the valve drive mechanism 4.

It is desirable that the portions of the power supply cable 14 and the temperature compensation conductor 15 extending outside the valve body 3 have a flexible structure such as a helical shape so that they can be moved by the stem drive.

In this embodiment, the heater power is turned on and off based on the temperature signal obtained by the temperature measurement sensor 13 to control the temperature to a predetermined value or higher, but other control methods such as manual fabrication may be used.

This embodiment configured as described above operates as follows.

When opening the valve body 6, the ambient temperature is measured by the thermometer-side sensor 13, and if the measured value is below a predetermined value, the heater 13 is activated to heat the valve body via the stem 5. Heater 1
When the ambient temperature rises due to the heating by 3 and the sodium is sufficiently dissolved, the value measured by the temperature measurement sensor 13 exceeds a predetermined value and reaches the temperature at which the valve can be opened, and the valve drive mechanism 4 is activated! II
Start IJ.

As described above, in the present invention, since the heater 12 and the temperature measurement sensor 13 are built into the stem 5, internal structures such as the stem 5 of the sodium valve, the 7 runciers 9 and 10 for the bellows, and the inlet bellows seal 11 are made uniform. temperature can be raised and the temperature can be detected accurately.

In addition, if the heater 12 built into the stem 5 and the heater 12 outside the valve as shown in PIS 4 are used together as in the present invention, the temperature increase time can be shortened.

Such a combination method is particularly effective for large-sized valves.

(Effects of the Invention) In the present invention, since the valve driving stem has a built-in heater, the temperature of the internal structure of the valve is uniformly raised, and solid substances that may cause damage to the internal structure can be sufficiently dissolved. .

Furthermore, since the valve drive stem also has a built-in temperature sensor, the ambient temperature can be measured reliably, reducing malfunctions such as unnecessary overheating.

By using a structure in which the heater 12 built into the valve driving stem 5 and the heater external to the valve are used together, the temperature increase time can be shortened.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway view of one embodiment of the present invention. FIG. 2 is a diagram showing the principle of the present invention. FIG. 3 is a partially cutaway view of a known sodium valve. Figure i#4 is a front view of a known preheating device. 1: Sodium valve 5: Valve drive stem 6: Valve body 11
: Bellows seal 12: Heater 13: Temperature measurement sensor Agent Patent attorney Mibe Tsuji (and 1 other person) Figure 1 Figure 3

Claims (1)

[Scope of Claim] A valve preheating device that raises the ambient temperature of the valve when the ambient temperature of the valve is below a predetermined value in order to prevent the valve from sticking or damage to equipment due to freezing, comprising: A preheating device for a valve, characterized in that a heater and a temperature measurement sensor are built into the stem.