JPH037680Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field The present invention relates to a steam trap that is attached to a steam piping system and automatically discharges condensate generated therein. This invention relates to a steam trap that can confirm whether or not the steam trap is operating normally by detecting the height of the steam trap.

If the steam trap does not operate properly, it will seriously hinder steam transportation and production activities. In other words, if drainage is insufficient or impossible, condensate will accumulate on the primary side of the steam trap, causing water leakage.
Hammering may occur, reducing the efficiency of steam-using equipment or destroying the equipment. Also, leaking steam wastes expensive energy.

Conventional technology and its problems Therefore, in the past, as a method to check whether the steam trap is working properly,
There is one shown in Publication No. 116826. This is made by coating a sheet with a substance that changes color according to temperature changes, such as mercury iodide, and attaching the tape-shaped temperature-indicating tape to the surface of the steam trap. It consists of areas.

When this temperature-indicating tape is exposed to a higher temperature than expected or used for a long period of time, its color-changing effect deteriorates, and there is a problem in that it does not change color correctly at a predetermined temperature.

Furthermore, since the temperature-indicating tape is attached only to the surface of the steam trap, there is a problem in that it is not possible to detect steam leaks from all types of steam traps. In other words, as an example, a free-float mechanical steam trap using a sealed spherical float is
This is because condensate is not retained and is discharged each time it occurs, so the temperature of the discharged condensate and the saturated steam temperature are almost the same, making it impossible to distinguish between condensate and steam.

The present invention aims to solve the above-mentioned problems.

Means for Solving the Problems The technical means of the present invention taken to solve the above problems is to make a temperature display board from a thin sheet of shape memory alloy, and make the front and back sides different colors. A part of the temperature display board is mechanically fixed to the surface of the steam trap or the front and rear piping so that the front surface of the temperature display board can be colored at low temperatures and the back side can be seen by deforming at high temperatures. Display plates are attached to at least two locations: the primary side of the steam trap valve port and the outlet side piping.

A shape memory alloy is an alloy that undergoes a thermoelastic martensitic transformation from the parent phase to a martensitic phase when cooled below a predetermined temperature, and undergoes the reverse transformation when heated above a predetermined temperature. , copper-zinc-aluminum alloy, etc. The temperature display plate is a thin plate of these shape memory alloys, for example, 0.5 mm thick, which is shaped into a strip or other shape.

For example, if the pipe is a thin strip, the piping is fixed to the surface of the steam trap using screws at one end or the center.At low temperatures, the surface is flat and visible, but when the temperature exceeds a certain temperature, the piping will be fixed to the surface of the steam trap. Curl it into a circle so that you can see the back side.

Effect The operation of the above technical means is as follows.

When the temperature is low, the surface of the temperature display board is visible, and this surface is painted a predetermined color, such as blue.
The display board appears blue. As the temperature of the pipe or steam trap increases, the display board attached to it will heat up accordingly. When the display board exceeds a predetermined temperature, it undergoes a unique instantaneous deformation because it is made of shape memory alloy, and the back surface becomes visible. Therefore, if a predetermined color, for example red, is applied to the back side of the display board, the display board becomes red. When the temperature drops again, the material deforms instantaneously at a predetermined temperature in the same way, and the blue color on the surface becomes visible.

When the steam trap is operating normally and only condensate is automatically discharged without letting steam escape, the primary side of the steam trap valve is hot and the outlet piping is cold. The temperature display plate attached to the inlet pipe or the casing upstream of the steam trap valve opening is curved in a circular shape so that the back side can be seen, and the temperature display plate attached to the outlet pipe is flat and the front side can be seen. If the steam trap is leaking steam, the outlet pipe will also reach a high temperature, so the temperature display plate attached to the outlet pipe will also warp into a circular shape, making the back side visible. Furthermore, when drainage becomes impossible or insufficient, both the primary and secondary sides of the steam trap become low in temperature, so the temperature display plates attached to the primary and outlet sides are both flat and visible.

Effect of invention The present invention produces the following specific effects.

As mentioned above, according to the present invention, by attaching temperature display plates to the primary side of the steam trap valve port and the outlet side piping, even if the temperature of the discharged condensate is almost the same as the saturated steam temperature, the steam It is possible to detect whether or not there is a leak. Therefore, the presence or absence of steam leakage can be accurately detected whether it is a free-float type mechanical steam trap or other types of steam traps.

Shape memory alloys can repeat their transformation millions of times, and because they deform instantaneously at a predetermined temperature, they can accurately display temperature over a long period of time.

The temperature display board is made of a thin sheet of shape memory alloy, so
Low material cost and low cost.

Changes in the temperature of piping and steam traps are displayed using colors on the front and back sides of the display board, so any color can be used.For example, low temperatures can be displayed in blue and high temperatures can be displayed in red. can.

Embodiment An embodiment illustrating a specific example of the above technical means will be described (see FIGS. 1 and 2).

Reference number 1 is a bimetallic steam trap connected to an inlet pipe 2 and an outlet pipe 3.
The steam trap 1 has a bimetal laminate 4 as a thermally responsive element, and when the bimetal deforms depending on the surrounding temperature, the valve body is driven via the valve stem to open and close the valve port, and thus , which allows only fluid with a temperature below a predetermined temperature to pass through.

A temperature display plate 5 is fixed on the surface of the casing of the steam trap. Similarly, temperature display plates 6 and 7 are fixed to the surfaces of the inlet side piping 2 and the outlet side piping 3, respectively.

These temperature display boards are made of shape memory alloy.
It is a rectangular thin plate with a thickness of about 0.5 mm, and the display board 5 has one end with a screw 8, and the display boards 6 and 7
is fixed at the center with screw 9.

These temperature display plates 5, 6, and 7 are memorized in shape so that they are flat at low temperatures and curved into circular shapes at high temperatures. Therefore, the state of deformation can be seen on the display board 5.
For example, as shown in FIG. 2, when the temperature is low, it has a flat shape 5' shown by a two-dot chain line, and the surface is visible when viewed from above. When the temperature rises, the screw 8 is used as a fixing point to bend back into a circular shape, with the front surface 10 facing inside and the back surface 11 facing outside, so that the back surface can be seen from above. The manner in which the temperature display plates 6 and 7 are deformed is also similar to this.

If steam trap 1 is working properly,
Since the inlet pipe 2 and the steam trap 1 are at a high temperature and the outlet pipe 3 is at a low temperature, the temperature display plates 5 and 6 of the inlet pipe and the steam trap are deformed, as shown in FIG. The temperature display plate 7 of the outlet side piping is in a flat state. That is, the display boards 5 and 6
is the color of the back side (for example, red), and the display board 7 appears to be the color of the front side (for example, blue).

[Brief explanation of drawings]

FIG. 1 is a front view of a steam trap pipe having an operation determination function according to the present invention, and FIG. 2 is a perspective view illustrating how a temperature display plate is deformed. 1...Steam trap, 2...Inlet side piping,
3... Outlet side piping, 5, 6, 7... Temperature display board,
8, 9...screws, 10...front, 11...back.

Claims (1)

[Scope of utility model registration request] A temperature display board is made from a thin sheet of shape memory alloy, and the front and back sides are colored in different colors, so that the front surface of the temperature display board deforms at low temperatures and the back side becomes visible at high temperatures. A part of the plate is mechanically fixed to the surface of the steam trap and the front and rear piping, and temperature display plates are attached to at least two locations: the primary side of the steam trap valve port and the outlet side piping. Steam trap piping with.