KR20180098991A - Steam trap with increased steam leakage prevention function for pressure variation - Google Patents

Abstract

An object of the present invention is to provide a steam trap improved in a function of preventing leakage of steam corresponding to a pressure change. Configuration of the present invention comprises: a connect pipe (200) connected to a strainer (110) connected to a steam pipe; a trap pipe (230) coupled to the connect pipe (200) so as to be disposed between the strainer (110) and the connect pipe (200) and having a trap hole communicating with a condensate discharge passage; and a filter cap (240) having a smaller diameter filtering hole than the trap hole of the trap pipe (230) and disposed on the condensate discharge passage.

Description

[0001] The present invention relates to a steam trap, and more particularly,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a steam trap having a function of preventing a steam leakage corresponding to a pressure change, and more particularly, And more particularly, to a steam trap which improves the function of preventing leakage of steam corresponding to a new pressure change.

Generally, a steam trap is used for discharging condensate generated by condensing various steam such as a steam main body of a production facility using steam, a heat exchanger or a generator.

Among the existing steam traps, Korean Patent No. 10-1463966 entitled "Steam Trap Having Multiple Orifices" has been developed. The above-mentioned Japanese Patent No. 10-143966 discloses a steam turbine comprising: a main body connected to a steam pipe; A condensed water discharge unit which is screwed to the female threaded portion of the main body and connects the main body and the condensed water discharge pipe to discharge the condensed water collected in the main body; And an orifice unit coupled to the interior of the condensed water discharge unit and having two or more majority filter holes to inhibit the discharge of steam and discharge the condensed water, the orifice unit forming a first filter hole, And a second orifice part screwed to the first insertion hole formed in the first orifice part and forming a second filter hole.

However, in the above-mentioned Japanese Patent No. 10-143966, when the first filter hole of the first orifice portion and the second filter hole portion of the second orifice portion are set up so as to be installed upward, there is no fear that the pressure- However, when the filter holes are installed so as to stand downward, there is a possibility that the water leakage preventing water film may be pierced. As a result, only the condensed water can not be discharged and the pressure may be counted. In this case, . In addition, there is a possibility that the pressure inside the steam trap sucks the outside air due to the negative pressure or vortex generation in the steam trap in the past. In this case, the condensed water can not be discharged, .

Therefore, a check valve capable of reliably discharging condensed water from the inside of the steam trap and reliably preventing the pressure leakage in the steam trap is required, and Korean Patent Registration No. 10-1545898 has been developed. Korean Patent No. 10-1545898 discloses a steam turbine comprising a connection sleeve connected to a steam pipe, an orifice sleeve coupled to the connection sleeve so as to be disposed in the condensate discharge passage between the steam pipe and the connection sleeve and having an orifice therein, A check valve provided in the orifice sleeve to prevent a pressure in the steam pipe from leaking through the orifice or a backward flow of external pressure through the orifice, and a filter network provided in the orifice sleeve.

In the above-mentioned Korean Patent No. 10-1545898, the orifice formed in the orifice sleeve is kept in a state where the condensed water is occupied (the condensed water is filled to form the water film), so that only the condensed water is discharged through the orifice of the orifice sleeve, What is blocked is the basic function.

However, in the conventional steam trap, when the pressure inside the steam valve changes, there is a problem that the steam can not be countered by the pressure change and the steam can not be prevented from being counted to the outside. The pressure inside the steam valve varies depending on various conditions. The conventional steam trap does not cope with such a pressure change and can not hold the steam properly.

Domestic registered patent No. 10-1463966 (registered on November 14, 2014) Domestic Registration No. 10-1545898 (Registered on Aug. 2015) Korean Registered Utility Model No. 20-0373297 (Registered on January 1, 2005) Domestic public utility model 20-2011-0004935 (public on May 18, 2011)

SUMMARY OF THE INVENTION The present invention has been developed to solve the above-mentioned problems, and it is a primary object of the present invention to provide a steam trap which is capable of reliably generating a water film by condensed water in an inner trap hole of a main steam trap, The present invention is intended to provide a steam trap having improved function of preventing leakage of steam corresponding to a new pressure change that enables the function of preventing the leakage of steam to be performed without any trouble in response to such pressure change even if the internal pressure changes.

According to an aspect of the present invention, there is provided a steam turbine comprising: a connect pipe having one end connected to a strainer connected to a steam pipe; A trap tube coupled to the connect pipe so as to be disposed between the strainer and the condensate discharge port between the strainer and the connect pipe and having a trap hole communicated with the condensate discharge passage; A trap body connected to the other end of the connect pipe and having a connection trap hole communicated with the trap hole of the trap pipe; And an adjusting stem provided on the trap body and having an opening / closing trap hole aligned with the connection trap hole. The steam trap has a function of preventing steam leakage corresponding to a pressure change.

And the connection trap hole communicates from one surface to the other surface of the trap body and is aligned on the same line as the trap hole of the trap tube.

And a filter cap having a filtering hole having a diameter smaller than that of the trap hole of the trap tube and disposed on the condensate discharge path.

According to the present invention, the steam trap of the present invention has an effect of preventing the steam from being counted out to the outside because the pressure inside the steam valve changes according to the difference of the difference. The external leakage of the steam can be easily prevented by adjusting the rotation angle of the adjusting stem provided on the trap body.

Further, since the condensed water is filtered by the front filtering holes of the front filter cap, the foreign substances are filtered out, and the condensed water is filtered by the rear filtering holes of the rear filter cap, Since there is no need to close the middle trap hole of the hole and middle split trap pipe and the rear trap hole of the rear split trap pipe, it is possible to prevent the steam trap from failing to operate properly, The diameter of the formed trap hole is smaller than the diameter of the front filter cap and the rear filter cap, and a plurality of trap holes are formed in the trap pipe, and the diameter of the trap holes is gradually reduced toward the back, The condensed water is discharged through the trap hole of the trap pipe and the pressure ( This function prevents the leakage of the team) has the effect becomes much more reliably than the conventional.

1 is a perspective view explaining a configuration of main parts of a steam trap improved in function of preventing leakage of steam corresponding to a pressure change according to the present invention;
FIG. 2 is a perspective view of the connect pipe and the trap pipe shown in FIG. 1,
FIG. 3 is a perspective view showing a state in which the connect pipe, the trap pipe, and the trap body shown in FIG.
FIG. 4 is a perspective view of a steam valve employing a steam trap that improves the function of preventing leakage of steam corresponding to a pressure change according to the present invention.
5 is a cross-sectional view showing the internal structure of Fig. 4
FIG. 6 is a cross-sectional view showing a main part of the present invention, which is an internal structure of a connect pipe, a trap pipe, a trap body,
7 is a plan view of the main part shown in Fig. 6
Fig. 8 is a plan view
FIG. 9 is a plan view showing a state in which the adjusting stem shown in FIG. 6 is rotated;
Fig. 10 is a plan view of Fig. 9
11 is a plan view showing a state in which the opening / closing trap hole of the adjusting stem shown in FIG. 6 is disconnected from the connection trap hole of the trap body
Fig. 12 is a plan view

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description. The same reference numerals are used for the same parts in the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

Referring to the drawings, a steam trap having improved function of preventing steam leakage corresponding to a pressure change of the present invention is connected to a strainer 110 of a steam pipe provided in a steam main body of a production facility using steam, a heat exchanger, A trap tube 230 coupled to the connect pipe 200 so as to be disposed in the condensed water discharge path between the strainer 110 and the connect pipe 200 and a trap body 230 connected to the connect pipe 200, And an adjusting stem 320 provided on the trap body 310. The present invention includes a filter cap 240 having a smaller diameter filtering hole than the trap hole inside the trap tube 230 and disposed on the condensate discharge path.

The connect pipe 200 is connected to the strainer 110 connected to the steam pipe. A strainer 110 is connected to the steam pipe and a connect pipe 200 is connected to the strainer 110 so that the connect pipe 200 is connected to the steam pipe via the strainer 110.

The trap pipe 230 is coupled to the connect pipe 200 so as to be disposed between the strainer 110 and the condensate discharge line between the connect pipe 200. The trap pipe 230 is provided with a trap hole communicating with the condensate discharge passage.

The connecting pipe 200 is composed of a front connecting pipe 222 and a rear connecting pipe 224.

The front connecting pipe 222 is connected to the strainer 110. The front connect pipe 222 is a structure that forms a front condensate discharge passage communicating with the inner passage of the strainer 110. [

The rear connecting pipe 224 is connected to the front connecting pipe 222. When connected to the front connect pipe 222, the rear connect pipe 224 forms a rear condensate discharge passage communicating with the front condensate discharge passage in the front connect pipe 222.

The filter cap 240 is composed of a front filter cap 242 and a rear filter cap 244.

The front filter cap 242 is connected to the front connect pipe 222. The front filter cap 242 has a front filtering hole 242H communicated on both sides. That is, the front filter cap 242 has a front filtering hole 242H communicated with the inner surface and the outer surface.

The rear filter cap 244 is connected to the rear connect pipe 224. The rear filter cap 244 has a rear filtering hole 244H communicated on both sides. That is, the rear filter cap 244 has a front filtering hole 242H communicating with the inner surface and the outer surface.

The trap pipe (230) is embedded in the rear connect pipe (224). A trap pipe 230 built in the rear connect pipe 224 is connected to the rear filter cap 244. The trap hole in the trap pipe 230 communicates with the rear filtering hole 244H of the rear filter cap 244. [

The front connect pipe 222 is detachably coupled to the strainer 110 by a screw portion, the front filter cap 242 is detachably coupled to the front connect pipe 222 by a threaded portion, The rear filter cap 224 is detachably coupled to the front connect pipe 222 by a screw portion and the rear filter cap 244 is screwed into the trap pipe 230 built in the rear condensate discharge passage inside the rear connect pipe 224, As shown in Fig.

The front filter cap 242 is detachably coupled to the front end side of the front connecting pipe 222 to discharge condensed water by a threaded portion and the rear filter cap 244 is connected to the front end of the trap pipe 230 And is detachably coupled to the front end side, which is an end to which the condensed water is introduced for discharge.

A partition wall is provided in the front connect pipe 222. The partition wall inside the front connect pipe 222 is disposed behind the open end of the front end of the front connect pipe 222. The partition wall is provided with a tube coupling hole, and a drain guide tube 232 is coupled to the tube coupling hole.

A drain guide hole 232H is formed at the tip of the drain guide tube 232. The drain guide hole 232H communicates with a drain connection hole that is opened to the base end portion of the drain guide pipe 232. At this time, the diameter of the drain connection hole is larger than the diameter of the drain guide hole 232H. When foreign substances such as particulate particles pass through the drain guide hole 232H, the particles do not block the drain connection hole having a larger diameter. The drain guide hole 232H of the drain guide pipe 232 communicates with the front filtering hole 242H of the front filter cap 242. [

The front filtering hole 242H of the front filter cap 242 and the rear filtering hole 244H of the rear filter cap 244 have the same diameter and the drain guide hole 232H has the same diameter as the front filtering hole 242H. And the diameter of the rear filtering hole 244H.

On the other hand, the front end side open portion of the front connect pipe 222 is formed by successively forming a plurality of open side segments whose inner diameter gradually decreases toward the proximal end portion of the front connect pipe 222. The inside diameter of the front end side open portion of the front connect pipe 222 is gradually reduced toward the front partition wall of the front connect pipe 222. [

The tube connecting hole provided in the front bulkhead of the front connecting pipe 222 is disposed at the center of the front connecting pipe 222 in communication with the rear end opening segment of the plurality of opening segments.

The front filtering holes 242H are arranged radially with respect to the center of the front filter cap 242. The rear filtering holes 244H are radially arranged with respect to the center of the rear filter cap 244 Respectively. A plurality of front filtering holes 242H are arranged at regular intervals along the circular locus around the center of the front filter cap 242 when viewed from the front side of the front filter cap 242, When viewed from the front, a plurality of rear filtering holes 244H are arranged at regular intervals along the circular locus around the center of the rear filter cap 244.

In addition, the inner surface of the front filter cap 242 is composed of a front inner groove which is concave toward the outer surface. And the front inner groove is recessed toward the front of the front filter cap 242.

In addition, the inner surface of the rear filter cap 244 is also composed of a recessed rear inner groove facing the outer surface. And the rear inner groove is recessed toward the front of the rear filter cap 244.

Meanwhile, the trap hole in the trap pipe 230 is disposed on the same line as the center of the rear filter cap 244.

The trap pipe 230 is configured to connect a plurality of split trap pipes 230. The rear filter cap 244 is connected to the front end of the foremost split trap pipe 230 among the plurality of split trap pipes 230. Therefore, the rear filter cap 244 is disposed at the front end of the rear connect pipe 224. [ A part of the rear filter cap 244 protrudes further toward the front side (that is, toward the strainer 110) than the front end of the rear connect pipe 224.

Trap holes are provided in the plurality of divided trap pipes 230, and a plurality of trap holes are disposed in the rear of the rear filter cap 244. At this time, the diameters of the trap holes gradually decrease from the rear filter cap 244 toward the rear connect pipe 224.

The trap pipe 230 is formed by connecting a front split trap pipe 232, a middle split trap pipe 234, and a rear split trap pipe 236. The front split trap pipe 232 and the middle split trap pipe 234 are detachably coupled to each other by a threaded portion and the middle split trap pipe 234 and the rear split trap pipe 236 are detachably coupled to the threaded portion .

A front partition wall is provided in the front split trap tube 232, a front trap hole 232H is provided in the front partition wall, and a middle partition wall is provided in the middle split trap pipe 234.

A middle trap hole 234H is formed in the middle partition wall, a rear partition wall is formed in the rear partition trap pipe 236, and a rear trap hole 236H is provided in the rear partition wall.

The diameter of the middle trap hole 234H is smaller than the diameter of the front trap hole 232H and the diameter of the rear trap hole 236H is made smaller than the diameter of the middle trap hole 234H.

In other words, the diameter of each trap hole of the trap pipe 230 gradually decreases from the front end of the rear connect pipe 224 to the proximal end of the rear filter cap 244.

A distributor 4a is provided at one side of the strainer 110. The distributor 4a removes the condensed water trapped in the strainer 110 when the abnormal pressure inside the strainer 110 is generated, To the outside. A blow-down valve can be connected to the distributor, and the blow-down valve can be opened to discharge the internal abnormal pressure.

The trap body 310 is connected to the other end of the connect pipe 200. The strainer 110 is connected to one end of the connect pipe 200 and the trap body 310 is connected to the other end of the connect pipe 200. Inside the trap body 310, an adjusting stem insertion hole 312 is provided. The adjustment stem insertion hole 312 is formed in a groove having a predetermined depth from the periphery of the trap body 310 to the inside of the trap body 310. The inner bottom of the adjustment stem insertion hole 312 is provided inside the trap body 310. The adjustment stem insertion hole 312 has an opening facing the inner bottom. The adjustment stem insertion hole 312 has an inner bottom portion formed inside the trap body 310 and a hole structure communicated with the outside of the trap body 310 by the opening portion. The adjustment stem insertion hole 312 is in the form of a circular hole that opens to the outer peripheral surface of the trap body 310 in the trap body 310.

A connection trap hole (314) communicating with the trap hole of the trap pipe (230) is provided in the trap body (310). The adjustment stem insertion hole 312 extends in a direction perpendicular to the longitudinal direction of the trap body 310 and the connection trap hole 314 is perforated in the longitudinal direction of the trap body 310. The connection trap hole 314 is communicated from the one end of the trap body 310 to the other end of the trap body 310 through the adjustment stem insertion hole 312. The connection trap hole 314 is composed of a front front connection trap hole 314 and a rear rear connection trap hole 314B on the basis of the adjustment stem insertion hole 312. The front connection trap hole 314A communicates with the trap hole in the trap pipe 230 connected to one end of the trap body 310. [ When the adjusting stem 320 to be described later is not inserted into the adjusting stem inserting hole 312 in the trap body 310, the front connecting trap hole 314A, the adjusting stem inserting hole 312 and the rear connecting trap hole 312 314B are in communication with the trap and the trap hole therein. As a result, the connection trap hole 314 in the trap body 310 is in communication with the trap hole in the trap pipe 230. The connection trap hole 314 in the trap body 310 communicates with the trap hole in the trap pipe 230 when the adjustment stem 320 is not inserted into the adjustment stem insertion hole 312. That is, the connection trap hole 314 is communicated from one side of the trap body 310 to the other side, and the trap hole inside the trap tube 230 and the connection trap hole 314 inside the trap body 310, Are aligned on the same line. The adjustment stem insertion hole 312 is disposed at the center and the front connection trap hole 314A in front of the adjustment stem insertion hole 312 and the rear connection trap hole 314B behind the adjustment stem insertion hole 312 are aligned with each other, And the front connection trap hole 314A and the rear connection trap hole 314B are aligned so as to be in line with the trap hole in the trap pipe 230. [ The condensed water is occupied in the connection trap hole 314 (forming a water film by filling the condensed water), so that only the condensed water is discharged to the outside through the connection trap hole 314 to prevent the outflow of pressure (steam).

The adjustment stem 320 is inserted into the adjustment stem insertion hole 312 inside the trap body 310. The adjustment stem insertion hole 312 is in the shape of a circular hole, and the adjustment stem 320 is configured in a circular bar shape. The adjustment stem 320 is inserted into the adjustment stem insertion hole 312 inside the trap body 310 so that the outer diameter of the adjustment stem 320 is smaller than the inner diameter of the adjustment stem insertion hole 312, And the inner circumferential surface of the adjustment stem insertion hole 312 are spaced apart from each other by a predetermined distance. The packing PK is coupled to the outer circumferential surface of the regulating stem 320 and the packing PK is inserted into the regulating stem insertion hole 312, The space between the outer circumferential surface of the adjusting stem 320 and the inner circumferential surface of the adjusting stem insertion hole 312 is blocked. The packing PK prevents the space between the outer circumferential surface of the regulating stem 320 and the inner circumferential surface of the regulating stem insertion hole 312 from communicating with the outside of the trap body 310. The packing PK forms a leakage preventing shield portion (blocking portion) between the space between the opening of the regulating stem insertion hole 312 and the inside bottom of the regulating stem insertion hole 312. That is, the space between the inner bottom of the adjusting stem insertion hole 312 and the packing PK is blocked from the outside of the trap body 310. The space between the inner bottom of the regulating stem insertion hole 312 and the packing PK may be referred to as an internal sealed space.

An opening / closing trap hole (324) is provided in the regulating stem (320). The opening and closing trap hole 324 extends in a direction perpendicular to the longitudinal direction of the adjusting stem 320. The opening / closing trap hole 324 communicates from one side of the regulating stem 320 to the other side. The opening and closing trap hole 324 is aligned with the connection trap hole 314 in the trap body 310. The opening / closing trap hole 324 is provided below the packing PK. Closing trap hole 324 is provided between the packing groove on the outer peripheral surface of the regulating stem 320 and the lower end of the regulating stem 320. Since the packing PK is coupled to the packing groove, the opening and closing trap hole 324 is provided below the packing PK.

The adjustment stem 320 is inserted into the adjustment stem insertion hole 312 inside the trap body 310. The adjustment stem 320 can be rotated in the adjustment stem insertion hole 312 inside the trap body 310. [ As the adjusting stem 320 rotates, the opening / closing trap hole 324 in the adjusting stem 320 is aligned with the connection trap hole 314 in the trap body 310 or is shifted from the connection trap hole 314 do. When the adjusting stem 320 is rotated, the opening / closing trap hole 324 is communicated with the front connection trap hole 314A and the rear connection trap hole 314B in the trap body 310, and the front connection trap hole 314A And the rear connection trap hole 314B in the trap body 310 are clogged with the front connection trap hole 314A in the rear body connection trap hole 314B. Closing degree of the opening / closing trap hole (324) in the trap body (310) is adjusted according to the rotation of the adjusting stem (320). The condensed water is retained in the opening / closing trap hole 324 of the regulating stem 320 (condensed water is filled to form a water film), and only the condensed water is discharged to the outside through the opening / closing trap hole 324, Lt; / RTI >

The upper end of the regulating stem 320 is provided with a recessed groove 322. The concave groove 322 is formed by a straight groove extending in the width direction of the adjusting stem 320.

The lower end of the adjusting stem 320 is in contact with the inner bottom of the adjusting stem insertion hole 312 provided in the trap body 310. Preferably, the lower end of the regulating stem 320 is supported by an inner bottom of the insertion groove of the regulating stem 320 by a pin groove and a pin. The lower end of the regulating stem 320 is inserted into the pin groove by the pin groove and the pin, and the regulating stem 320 is inserted into the pin groove. It can be supported on the inner bottom of the groove. In contrast, a pin groove is provided in the inner bottom and a pin is provided at a lower end of the adjusting stem 320. The lower end of the adjusting stem 320 is coupled to the adjusting stem 320 by a pin groove and a pin, May be supported on the inner bottom of the insertion groove. The pin can be coupled to the pin groove so that the adjustment stem 320 can be stably coupled to the adjustment stem insertion hole 312 without flowing in the adjustment stem insertion hole 312 inside the trap body 310 . The control stem 320 is stably engaged with the control stem insertion hole 312 in the trap body 310 so that the opening and closing trap hole 324 in the control stem 320 is positioned inside the trap body 310 The opening and closing accuracy between the opening and closing trap hole 324 of the adjusting stem 320 and the connection trap hole 314 of the trap body 310 can be assured.

The adjusting stem 320 is supported in the adjusting stem insertion hole 312 by the stem cap 326 coupled to the adjusting stem insertion hole 312 of the trap body 310. The stem cap 326 has a stem pressing piece 327 at an upper end thereof. Inside the stem cap 326, an adjustment stem insertion hole 312 is provided. The adjustment stem insertion hole 312 communicates from the inner surface of the stem pressing piece 327 to the lower end of the stem cap 326. The stem pressing piece 327 is provided with a stem rotation adjusting hole. The diameter of the stem rotation adjustment hole is smaller than the diameter of the adjustment stem insertion hole 312. A stepped portion is provided on the outer circumferential surface of the stem cap 326. Further, the stem cap 326 has a threaded portion on the outer circumferential surface under the step portion. A threaded portion is also provided on the inner circumferential surface of the adjustment stem insertion hole 312 of the trap body 310. The threaded portion of the outer circumferential surface of the stem cap 326 is engaged with the threaded portion of the inner circumferential surface of the adjustment stem insertion hole 312. The stem cap 326 is coupled to the adjustment stem insertion hole 312 of the trap body 310 so that the stem cap 326 can be loosened or tightened. The stem pressing member 327 presses the adjusting stem 320 and the lower end of the adjusting stem 320 is adjusted by the stem pressing member 327 in a state in which the stem cap 326 is completely tightened in the adjusting stem insertion hole 312 of the trap body 310. [ So that the adjustment stem 320 is stably fixed without being rotated in the adjustment stem insertion hole 312. When the stem cap 326 is completely loosened up to the adjustment stem insertion hole 312 of the trap body 310, the stem pressing member 327 releases the force pressing the adjustment stem 320 The lower end of the adjustment stem 320 is released from the inner bottom portion of the adjustment stem insertion hole 312 so that the adjustment stem 320 can be rotated in the adjustment stem insertion hole 312 . That is, if the stem cap 326 is tightened, the adjusting stem 320 is not rotated in the adjusting stem insertion hole 312 of the trap body 310. When the stem cap 326 is loosened, 320 can be rotated in the adjustment stem insertion hole 312 of the trap body 310. [ In a state where the adjusting stem 320 is rotatable, a tool (mainly, a driver) is inserted through the stem rotation operation hole of the stem cap 326 and inserted into the concave groove 322 at the upper end of the adjusting stem 320 The adjusting stem 320 can be rotated in the adjusting stem insertion hole 312 inside the trap body 310 by turning the tool. The linear driver is inserted through the stem rotation operation hole of the stem cap 326 and the linear driver is inserted into the concave groove of the adjusting stem 320 The adjusting stem 320 can be rotated in the adjusting stem inserting hole 312 in the trap body 310 by turning the flat type screwdriver in a state where the adjusting stem 320 is inserted into the adjusting stem 322. When the stem cap 326 is tightened to press the adjusting stem 320 and the driver is inserted into the concave groove 322 at the upper end of the adjusting stem 320 to rotate the adjusting stem 320, .

In the steam trap according to the present invention, the front filter cap 242 and the rear filter cap 244 prevent foreign substances such as particulate particles inside the steam valve from blocking the trap holes in the trap pipe 230 It is possible to prevent the malfunction of the steam valve due to the clogging of the foreign substance and the malfunction of the steam main pipe, the heat exchanger, the generator, etc. of the production equipment using the steam connected with the steam valve. The front filtering hole 242H of the front filter cap 242 allows the condensed water to pass therethrough to filter foreign substances and the condensed water to be filtered by the rear filtering holes 244H of the rear filter cap 244, The front trap hole 232H of the front split trap pipe 232 and the middle trap hole 234H of the middle split trap pipe 234 and the rear split trap pipe 234 of the trap pipe 230, The rear trap hole 236H of the rear cover 236 is not clogged by foreign matter at all.

At this time, even if the filtering holes of the filter cap 240, that is, the front filtering holes 242H of the front filter cap 242 and the rear filtering holes 244H of the rear filter cap 244 are clogged by foreign matter The front connecting pipe 222 to which the front filter cap 242 is coupled is detachably coupled to the strainer 110 and the trap pipe 230 to which the rear filter cap 244 is coupled is connected to the rear connecting pipe 224, And the rear connect pipe 224 is detachably coupled to the front connect pipe 222 so that the front connect pipe 222 and the rear connect pipe 224 are separated from the strainer 110, When the front filter cap 242 and the rear filter cap 244 are regularly cleaned, the front filtering holes 242H and the rear filtering holes 244H for releasing the condensed water are opened and there is no problem in operation as a steam trap. The front filter cap 242 and the rear filter cap 242, Since the front filtering holes 242H and the rear filtering holes 244H which are the minute holes of the filter cap 244 are closed, the trap holes having the larger diameter of the rear trap pipe 230 are clogged by particles such as particles none. If the filtering holes of the filter cap 240 are clogged by foreign substances, the filtering holes are opened when the filter cap 240 is cleaned. Therefore, there is no problem in operation of the steam trap. That is, when the front filtering hole 242H of the front filter cap 242 is blocked or the rear filtering hole 244H of the rear filter cap 244 is clogged, the front filter cap 242 and the rear filter cap 244 are cleaned The front and rear filtering holes 242H and 244H are opened again. Therefore, there is no problem in operation of the steam trap, and the steam trap can be used until the life of the steam trap of the present invention is completed. The front filtering hole 242H of the front filter cap 242 allows the condensed water to pass therethrough to filter foreign substances and the condensed water to be filtered by the rear filtering holes 244H of the rear filter cap 244, The front trap hole 232H of the front split trap pipe 232 and the middle trap hole 234H of the middle split trap pipe 234 and the rear split trap pipe 234 of the trap pipe 230, The rear trap hole 236H of the rear cover 236 is not clogged by foreign matter at all.

The condensed water is passed through the front filtering holes 242H of the front filter cap 242 and the condensed water is filtered by the rear filtering holes 244H of the rear filter cap 244 while passing the condensed water through the front filtering holes 242H of the front filter cap 242, The foreign substances are trapped in the front trap hole 232H of the front split trap pipe 232 and the middle trap hole 234H of the middle split trap pipe 234 and the rear trap hole 236H of the rear split trap pipe 236, The steam trap can not be operated properly.

In the present invention, the trap hole (OR) formed in the trap pipe (230) is kept in a state where the condensed water is occupied (the condensed water is formed to form a water film), and only the condensed water is discharged through the trap hole (OR) And the pressure (steam) is prevented from flowing out.

That is, the front trap hole 232H of the front split trap pipe 232, the middle trap hole 234H of the middle split trap pipe 234, and the rear trap hole 236H of the rear split trap pipe 236, The condensed water is discharged through the trap hole OR of the trap pipe 230 to prevent the outflow of pressure (steam).

At this time, since the diameter of each trap hole of the trap pipe 230 gradually decreases from the tip end of the rear connect pipe 224 having the rear filter cap 244 toward the proximal end thereof, The function of discharging the condensed water only through the trap hole OR of the trap pipe 230 and preventing the outflow of the pressure (steam) is much more reliable than the conventional one because the water film is formed more reliably in the trap holes . That is, the diameter of the middle trap hole 234H is smaller than the diameter of the front trap hole 232H, and the diameter of the rear trap hole 236H is made smaller than the diameter of the middle trap hole 234H, The condensed water forms the water film more reliably by the surface tension in the middle trap hole 234H and the condensed water is formed in the rear trap hole 236H by the surface tension in the front trap hole 232H. The function of discharging the condensed water only through the trap hole OR of the trap pipe 230 and preventing the outflow of the pressure (steam) is much more reliable than the conventional one because the water film is more surely formed in the middle trap hole 234H than in the middle trap hole 234H. It will be.

In the present invention, a drain guide pipe 232 is provided in front of the rear filter cap 244, a drain guide hole 232H is provided in the drain guide pipe 232, A water filter is formed in the drain guide hole 232H in the drain guide pipe 232 by the condensed water passing through the front filter hole of the front filter cap 242, , Further enhancing the leakage function outside the steam.

On the other hand, the diameter of the drain guide hole 232H is larger than the diameter of the front filter hole of the front filter cap 242, so that the foreign matter passing through the front filter hole does not obstruct the drain guide hole 232H.

The front end of the front connecting pipe 222 is connected to the front end of the front connecting pipe 222. The front end of the front connecting pipe 222 is connected to the front end of the front connecting pipe 222, The condensed water that has passed through the front filtering hole 242H of the front filter cap 242 is collected in the center and is discharged to the drain guide pipe 232. [ The water film can be more easily formed in the drain guide hole 232H in the inside, so that the steam leakage function by the water film can be further strengthened. The tube connecting hole provided in the front bulkhead of the front connecting pipe 222 is disposed at the center of the front connecting pipe 222 in communication with the rearmost opening segment out of the plurality of opening segments, The condensed water is collected in the drain guide hole 232H in the drain guide pipe 232 so that the water film can be formed more smoothly in the drain guide hole 232H.

The front filter cap 242 and the rear filter cap 244 are respectively provided with a plurality of front filtering holes 242H and rear filtering holes 244H in the radial direction with respect to the center, So that the drainage efficiency of the condensed water is higher and the water film is more smoothly formed in the trap hole inside the trap pipe 230. [ Thereby enhancing the leakage prevention function of the steam.

The inner surface of the front filter cap 242 is composed of a front inner groove formed in a concave groove toward the outer surface so that condensed water received through the front filtering hole 242H is collected in the center by surface tension The condensed water collects in the center and flows toward the drain guide hole 232H of the drain guide pipe 232 at the rear side to form a water film intensively in the drain guide hole 232H. It further enhances the leakage prevention function. Particularly, the trap holes in the trap pipe 230 are disposed in the same line as the center of the rear filter cap 244 so that the condensed water flowing through the plurality of rear filtering holes 244H of the rear filter cap 244 The trap holes in the trap pipe 230 are collected and discharged to the center of the trap pipe 230 so that the trap holes of the trap pipe 230, that is, the front trap hole 232H, And the middle trap hole 234H and the rear trap hole 236H, it is possible to further enhance the function of preventing the leakage of steam due to the water film.

The inner surface of the rear filter cap 244 also includes a recessed rear inner groove facing the outer surface of the rear filter cap 244 so that the condensed water received through the rear filtering hole 244H is collected by the surface tension, The condensed water collects in the center and flows into the trap hole of the trap pipe 230 at the rear side to form a water film intensively in the trap hole. Therefore, the function of preventing the leakage of steam by the water film formed in the trap hole of the trap pipe 230 is further strengthened . In particular, since the drainage hole 232H of the drain guide tube 232 at the front side and the trap hole of the trap pipe 230 at the rear side form a water film at least double, the function of preventing the steam leakage phenomenon becomes perfect.

At this time, the most important feature of the present invention is that the steam leakage preventing function corresponding to the pressure change is further improved in addition to the above-described function.

The internal pressure of the steam valve varies depending on various conditions such as a pressure change of a device connected to the steam valve. In the present invention, the trap body 310, the connection trap hole 314, the adjustment stem 320, By providing the trap hole 324, the steam leakage can be prevented more stably regardless of the pressure change inside the steam valve.

When there is no change in the pressure inside the steam valve, the opening / closing trap hole 324 of the adjusting stem 320 is completely communicated with the connection trap hole 314 of the trap body 310. The adjustment stem 320 is left unrotated in the adjustment stem insertion hole 312 of the trap body 310. [ At this time, when the trap hole of the trap pipe 230, the connection trap hole 314 of the trap body 310, and the opening and closing trap hole 324 of the control stem 320 are completely communicated with each other, The same function as the steam leakage prevention function. This state can be referred to as a normal steam leakage preventing state.

When the pressure inside the steam valve is higher, the steam can not be properly caught by the pressure, and the trap hole of the trap pipe 230, the connection trap hole 314 of the trap body 310, Closing strap hole 324 of the adjusting stem 320 is opened or closed with the connection trap hole 314 of the trap body 310. The adjusting stem 320 ). The stem cap 326 is slightly loosened in the adjustment stem insertion hole 312 of the trap body 310 and then the adjustment stem 320 is rotated. When the adjusting stem 320 is rotated, the opening / closing trap hole 324 in the adjusting stem 320 is turned at a predetermined angle in the front connection trap hole 314A and the rear connection trap hole 314B in the trap body 310 The opening and closing trap hole 324 of the control stem 320 and the connection trap hole 314 of the trap body 310 are connected more narrowly than the normal steam leakage preventing state. Therefore, when the pressure inside the steam valve becomes higher, the steam valve 320 is closed to block the passage through which the steam can escape, so that the trap hole of the trap pipe 230 and the trap hole of the trap body 310 The connection trap hole 314 and the opening / closing trap hole 324 of the adjustment stem 320 are prevented from escaping. Only the condensed water is discharged through the connection trap hole 314 and the opening / closing trap hole 324, and leakage of steam is blocked. This state can be referred to as a first stage steam leakage prevention state. Of course, the stem cap 326 may be tightened in the first-stage steam leakage prevention state to maintain the adjustment stem 320 in a resting state.

In this case, in the case of a two-stage pressure rise in which the pressure inside the steam valve is higher than the pressure in the first-stage steam leakage prevention state, the opening / closing trap hole 324 of the adjusting stem 320 is connected to the connection trap 324 of the trap body 310, The adjusting stem 320 is further turned so that the degree of opening and closing with the hole 314 is smaller than in the case of the first-stage steam leakage preventing state. The stem cap 326 is loosened in the adjusting stem insertion hole 312 of the trap body 310 and the adjusting stem 320 is further rotated. When the adjusting stem 320 is further rotated, the opening and closing trap holes 324 in the adjusting stem 320 in the front connection trap hole 314A and the rear connection trap hole 314B in the trap body 310 are connected to the first- The opening and closing trap hole 324 of the control stem 320 and the connection trap hole 314 of the trap body 310 are connected to each other more reliably than the one-stage steam leakage prevention state, Narrowly connected. Therefore, when the pressure inside the steam valve becomes higher than the pressure in the second step, the steam can be blocked by the adjusting stem 320, It is prevented from escaping through the connection trap hole 314 of the trap body 310 and the opening and closing trap hole 324 of the adjustment stem 320. Only the condensate is dropped and steam leakage is prevented. This state can be referred to as a second-stage steam leakage prevention state.

If the pressure inside the steam valve becomes higher than the pressure rising state of the second step, the adjusting stem 320 may be further rotated as compared with the second step steam leakage preventing state.

As described above, whenever the pressure inside the steam valve changes, the steam is returned to the control stem 320, thereby completely preventing the steam from leaking to the outside.

When the opening and closing trap hole 324 of the adjusting stem 320 is completely deviated from the connection trap hole 314 of the trap body 310, the connection trap hole 314 of the trap body 310 is clogged So that steam and condensed water inside the steam valve are not discharged to the outside.

Therefore, the steam trap of the present invention can not cope with such a pressure change when the pressure inside the steam valve varies according to the difference of the number of taps, thereby preventing the steam from being counted to the outside. The external leakage of the steam can be easily prevented by adjusting the rotation angle of the adjusting stem 320 provided on the trap body 310. The pressure inside the steam valve varies depending on various conditions, and the steam trap of the present invention has the effect of properly holding the steam in response to such a pressure change.

In the present invention, when the adjusting stem 320 is turned, the concave groove 322 at the upper end of the adjusting stem 320 is turned, The angle of rotation can be adjusted easily and precisely.

Also, by tightening or loosening the stem cap 326, the rotation angle of the adjustment stem 320 can be maintained and the adjustment stem 320 can be rotated, so that the adjustment stem 320 can be easily operated. The stem cap 326 may be loosened when the adjustment stem 320 is rotated and the stem cap 326 may be tightened when the adjustment stem 320 is to be fixed. It is simple and easy.

Since the packing PK on the outer circumferential surface of the adjusting stem 320 is in close contact with the outer circumferential surface of the adjusting stem insertion hole 312 in the trap body 310, So that the sealing function for preventing the leakage of pressure can be properly performed, and the rotation of the adjusting stem 320 can be performed more easily and smoothly.

The stem cap 326 is coupled to the adjusting stem insertion hole 312 of the trap body 310 by a screw so that the stem cap 326 is separated from the trap body 310, The adjustment stem 320 and the trap body 310 can be assembled more easily and easily because the adjustment stem 320 can be inserted into the adjustment stem insertion hole 312 inside the trap body 310. When the adjustment stem 320 is replaced, Since the stem cap 326 needs only to be separated from the trap body 310, efficiency in maintenance and the like is also high.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

222. Front connecting pipe 224. Rear connecting pipe
232. Front split trap tube 232H. Front Trap Hole
234. Middle split trap tube 234H. Middle trap hall
236. Rear split trap tube 236H. Rear trap hole
242. Front filter cap 242H. Front Filtering Hole
244. Rear filter cap 244H. Rear Filtering Hole
310. Trap body 312. Adjustable stem insertion hole
314. Connecting trap hole 320. Adjusting stem
322. Concave groove 324. Opening and closing trap hole
326. Stem cap 327. Stem pressing piece

Claims (4)

A connect pipe 200 one end of which is connected to the strainer 110 connected to the steam pipe;
A trap pipe 230 coupled to the connect pipe 200 so as to be disposed between the strainer 110 and the connect pipe 200 and having a trap hole communicated with the condensate discharge passage, ;
A trap body 310 connected to the other end of the connect pipe 200 and having a connection trap hole 314 communicated with the trap hole of the trap pipe 230;
And an adjusting stem 320 provided in the trap body 310 and having an opening and closing trap hole 324 aligned with the connection trap hole 314. [ Improved steam trap.
The method according to claim 1,
Wherein the connection trap hole (314) is in communication with the other surface of the trap body (310) and aligned with the trap hole (230) of the trap tube (230) Steam traps improve steam leak protection.
The method according to claim 1,
And a filter cap (240) having a filtering hole having a diameter smaller than that of the trap hole of the trap pipe (230) and disposed on the condensate discharge passage. A steam trap with improved leak protection.
The method according to claim 1,
The connecting pipe (200)
A front connect pipe 222 connected to the strainer 110 to form a front condensate discharge passage communicated with an internal passage of the strainer 110;
And a rear connect pipe (224) connected to the front connect pipe (222) to form a rear condensed water discharge path communicating with the front condensed water discharge path,
The filter cap (240)
A front filter cap 242 connected to the front connect pipe 222 and having a front filtering hole 242H communicated on both sides;
And a rear filter cap (244) connected to the rear connect pipe (224) and having a rear filtering hole (244H) communicated on both sides,
The trap pipe 230 is installed in the rear connect pipe 224 and is connected to the rear filter cap 244 so that the trap hole inside the trap pipe 230 is connected to the rear end of the rear filter cap 244, And the filter hole (244H) is communicated with the filter hole (244H).

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