JP2005299870A - Steam trap - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a steam trap capable of preventing an accumulation of foreign matters on a valve port and a valve element. <P>SOLUTION: A valve casing having a valve chamber 5 inside is formed by screw-connecting a lid 4 to a body 3 having an inlet 1 and an outlet 2. A spherical float 8 is arranged in the valve chamber 5 in a free condition. A valve port 6 communicating with the valve chamber 5 and the outlet 2 is provided in between. A handy probe 17 integrally containing an ultrasonic transmitter 10 and a receiver 11 is freely attachably/detachably fitted to one end of a valve seat 9 forming the valve port 6. The probe 17 is connected to a controller 13. The controller 13, the transmitter 10 and the receiver 11 form a foreign matter measuring device. When foreign matters are attached and accumulated on the valve port 6 and the outer surface of the spherical float 8 due to a long-term operation of the steam trap, the ultrasonic transmitter 10 is driven on the basis of a drive signal from the controller 13 so as to ultrasonically clean the foreign matters. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a steam trap that opens a valve port by the inflow of condensate generated by condensing steam and discharges the condensate to the outside, while steam does not discharge to the outside.

  The steam trap discharges condensate using a difference in temperature and specific gravity of steam and condensate, or discharges condensate using a difference in thermodynamic characteristics of steam and condensate.

In conventional steam traps, foreign matter such as dust, scale, or molten metal in the fluid adheres to the sealing surface of the valve opening and the valve body surface that the valve element opens and closes and opens and closes, and the valve element completely opens the valve opening. When sealing is no longer possible, there is a problem in that an operator has to delete a foreign object by rotating a screw or the like from the outside.
JP 2002-372166 A

  The problem to be solved is to provide a steam trap that can easily remove foreign matter when foreign matter adheres to and accumulates on the valve opening or valve body surface.

  In the present invention, an inlet, a valve chamber, and an outlet are formed in a valve casing, a valve port that communicates the valve chamber and the outlet is provided between the valve chamber and the outlet, and a valve body that opens and closes the valve port is provided. An ultrasonic transducer that applies ultrasonic vibration to the body or valve mouth is detachably attached to the outside of the valve casing, and foreign matter adhering to the valve body or valve mouth is cleaned with ultrasonic waves. A foreign matter measuring instrument for measuring whether foreign matter is attached or not is provided.

  In the present invention, an ultrasonic transducer that applies ultrasonic vibration to the valve body or the valve port is detachably attached to the outside of the valve casing, so that foreign matter adhering to the valve port or the valve body surface can be easily deleted with ultrasonic waves. Can be washed. In addition, by providing a foreign matter measuring device that measures whether or not foreign matter has adhered to the valve body and valve opening, the ultrasonic transducer is measured after measuring that the foreign matter has adhered to the foreign matter measuring device. Can be driven to ultrasonically clean the valve body and the valve opening. Alternatively, after performing ultrasonic cleaning, it can be confirmed by measuring with a foreign object measuring device whether or not the foreign object is reliably cleaned.

  The steam trap according to the present invention reliably removes foreign matter by ultrasonic vibration by attaching the ultrasonic vibrator to the outside of the valve casing at a location where condensate tends to accumulate, such as the lower part of the valve body or the outside of the valve port. Can do.

  In this embodiment, an example in which a free float steam trap is used as the steam trap is shown. In FIG. 1, a lid 4 is screwed to a body 3 having an inlet 1 and an outlet 2 to form a valve casing having a valve chamber 5 therein. An inlet 1 communicates with the valve chamber 5, and an outlet 2 communicates with the valve port 6 through the communication hole 7.

A spherical float 8 as a valve body is disposed in a free state so as to face the valve port 6 in the valve chamber 5. The spherical float 8 is a hollow shape made of a stainless steel thin plate, and when condensate flows into the valve chamber 5 from the inlet 1, it floats by its buoyancy and leaves the valve port 6 to open the valve port 6. The condensate is discharged to the outlet 2 side. When the condensate is discharged and the liquid level in the valve chamber 5 is lowered, the spherical float 8 is also lowered to prevent the steam from being discharged to the outlet 2 side by closing the valve port 6.

  A handy probe 17 that can be gripped by an operator with a built-in ultrasonic vibration transmitter 10 and receiver 11 is attached to the outside of a cylindrical valve seat 9 that forms the valve port 6 in a detachable manner. The ultrasonic vibration transmitter 10 converts electrical vibration emitted from an oscillator built in the probe 17 into mechanical vibration and transmits the mechanical vibration to the valve seat 9 having the valve port 6, thereby allowing the spherical float 8 outside the valve port 6 to be outside. Foreign matter such as dust and molten metal deposited and deposited on the sealing surface with the surface is ultrasonically cleaned.

  The transmitter 10 can switch the ultrasonic wave transmitted by a switching means (not shown). When performing the cleaning as described above, the ultrasonic wave suitable for the cleaning is generated, and foreign matter adheres to the valve body and the valve port. When measuring whether or not it is, ultrasonic waves suitable for the measurement can be generated.

  The ultrasonic vibration receiver 11 is used to detect whether or not a foreign substance is attached. The ultrasonic wave emitted from the transmitter 10 is reflected at the position where the foreign substance is attached and received by the receiver 11. Thus, it is possible to detect whether or not foreign matter is attached. In this embodiment, the ultrasonic vibration transmitter 10, the receiver 11, and the controller 13 described later constitute a foreign matter measuring device.

In the present embodiment, an example in which the probe 17 incorporating the ultrasonic vibration transmitter 10 and the receiver 11 is detachably attached to the outside of one end of the valve seat 9 is shown, but the spherical float 8 as a valve body is shown. It can also be attached to the outside 16 of the main body 3 at the bottom.

  The probe 17 is connected to the controller 13 through the connection line 12. The controller 13 is provided with a foreign matter determination unit for determining whether or not foreign matter has adhered to and accumulated in the vapor trap from the detection value of the ultrasonic vibration receiver 11. Accordingly, it is possible to control transmission of ultrasonic waves suitable for cleaning from the ultrasonic transmitter 10.

On the other hand, the thermoelectric generator 18 is attached in contact with the outer surface of the lid 4 constituting the valve casing. A heat radiating fin 19 is connected to the end face of the thermoelectric generator 18. The thermoelectric generator 18 is an element that generates electric power based on the steam flowing into the valve chamber 5 and the heat of the condensate. When the probe 17 is in contact with the valve seat 9 by a connection terminal (not shown), ultrasonic vibration is generated. A power source for driving electric circuits / elements such as the transmitter 10 and the receiver 11 can be supplied.

An inlet pipe 20 through which a mixed fluid of steam and condensate flows down is connected to the inlet 1 of the steam trap, and a condensate discharge pipe 21 is connected to the outlet 2. A makeup water supply pipe 23 is connected to the inlet pipe 20 via a valve 22.

  Normally, the steam trap discharges the condensate flowing in from the inlet 1 to the outlet 2 side when the spherical float 8 rises and opens the valve port 6. The condensate contains foreign matter such as iron rust and molten metal generated in the steam trap inlet side pipe and steam using device, and these foreign matter will remain in the spherical float 8 when the steam trap is used for a long time. It adheres to and accumulates on the outer surface and the sealing surface of the valve seat 9. Such a foreign matter adhesion and accumulation state is detected by a foreign matter measuring device, and an ultrasonic vibration suitable for cleaning is generated by driving the ultrasonic vibration transmitter 10 so that the ultrasonic vibration can be detected by the valve seat 9 or the spherical float 8. It is possible to wash the foreign matter.

In addition, when performing ultrasonic cleaning, the cleaning part must be immersed in the liquid. However, in the steam trap of the present embodiment, the condensate always stays near the center of the spherical float 8. In addition, the valve port 6 and the lower hemispherical portion of the spherical float 8 can be ultrasonically cleaned.

  When the ultrasonic cleaning cannot be performed because there is not enough condensate in the valve chamber 5 of the steam trap, the valves 14 and 15 are closed and the valve 22 is opened, and the valve is opened from the makeup water supply pipe 23. By supplying makeup water into the chamber 5, ultrasonic cleaning can be performed reliably.

  In this embodiment, an example using a free float steam trap as a steam trap has been shown, but other steam traps such as a bucket steam trap, a disk steam trap, a temperature sensitive steam using a bimetal or a bellows. It can be similarly used for a steam trap conventionally used such as a trap or a temperature control trap.

The partial cross section block diagram of the steam trap of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Inlet 2 Outlet 3 Main body 4 Lid 5 Valve chamber 6 Valve port 8 Spherical float 9 Valve seat 10 Ultrasonic vibration transmitter 11 Ultrasonic vibration receiver 13 Controller 17 Handy probe 18 Thermoelectric generator 19 Radiation fin 23 Supply water Supply pipe

Claims (1)

In the valve casing, an inlet, a valve chamber, and an outlet are formed, a valve port that connects the valve chamber and the outlet is provided between the valve chamber and the outlet, and a valve body that opens and closes the valve port is provided. An ultrasonic vibrator that applies ultrasonic vibration to the valve casing is detachably attached to the valve casing, and foreign matter adhering to the valve body or valve mouth is cleaned with ultrasonic waves, and foreign matter adheres to the valve body or valve mouth. A steam trap, characterized in that a foreign matter measuring device is provided for measuring whether or not it is present.

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