KR102208162B1 - A steam trap - Google Patents

Abstract

The present invention relates to a steam trap. A nozzle is positioned in an upper portion of a valve body and has a plurality of nozzle through-holes to prevent clogging of the nozzle and be easily maintained and repaired by replacement and management as compared to an existing fastening method of an opening and closing screw. Moreover, positions of each nozzle through-hole of the nozzle can be adjusted in accordance with a discharge amount of condensation water to discharge the condensation water so as to prevent degradation of other systems for steam supply, and the general steam trap uses a stainless material so as to prevent durability and use life from being reduced caused by bubbles, a crack, and sludge.

Description

A steam trap

The present invention relates to a steam trap, and more particularly, to a steam trap that facilitates replacement of the steam trap and discharge of sludge through a valve body, as well as an installation structure of a steam trap for efficient discharge of condensate water.

In general, high-temperature and high-pressure steam is transported into steam pipes such as heating radiators, reactors, paper dryers, tracing pipes in the petrochemical industry, sterilizers in hospitals, and pipe networks for fever generators. Inevitably, condensed water is generated and accumulates in the steam pipe.

The condensed water in the steam pipe greatly degrades the performance of the system, so to prevent the system performance from deteriorating, the condensed water generated in the steam pipe is quickly discharged, and the steam trap is installed in the appropriate place of the steam pipe. Discharge the condensed water inside.

That is, the steam trap is used to discharge condensed water generated by condensing steam in a steam space such as a steam main or a heat exchanger of a production facility using steam.

A nozzle for discharging the collected condensate to the outside is built into the steam trap.

A nozzle of a conventional steam trap is a round bar having a threaded portion along an outer circumferential surface, and a nozzle hole having a diameter in the center portion is vertically penetrated, and condensed water is discharged to the outside through the nozzle hole.

However, the conventional nozzle for a steam trap as described above has only one nozzle hole in the center, and the amount of condensate collected in the steam trap varies depending on the operating state of the system, so that the collected condensate is discharged at an appropriate speed. In order to do so, it is necessary to replace the nozzle with a nozzle having a nozzle hole of a diameter suitable for each situation, so that the operator must carry out the work while carrying all the nozzles with nozzle holes of different diameters. There was a problem that productivity was also greatly reduced.

In order to solve the above problems, the present applicant has been registered as Korean Patent No. 10-1900698 (name: nozzle for steam trap, date of notification: September 20, 2018, hereinafter referred to as'patent document'). .

The patent document is a nozzle for a steam trap that is built in the nozzle assembly hole in the steam trap and discharges the condensed water collected in the steam trap to the outside, wherein the nozzle is formed vertically through a different diameter and formed along the inner surface of the upper end. A plurality of nozzle through holes having threaded portions; It is characterized in that it is provided with an opening and closing screw that is assembled at the upper end of the nozzle hole to open and close the nozzle hole, and this configuration includes a plurality of nozzle holes having different diameters in one nozzle, and a nozzle having a suitable diameter among the plurality of nozzle holes By allowing only one through hole to be selected and opened, it is possible to perform work without having to carry a separate nozzle for replacement, so that work is easy and work productivity can be remarkably improved.

However, in the nozzle, a plurality of opening and closing screws are respectively fastened to discharge condensed water through the nozzle of the unfastened portion, but the opening and closing screws are individually fastened to the threaded portion of the nozzle, which is unnecessary according to the number of nozzles. The work must be performed, and this has problems such as an increase in the number of parts, an increase in product price, and a defect in the fastening part.

The present invention was invented to solve the conventional problems as described above, and provides a steam trap that facilitates the replacement of the steam trap and the discharge of sludge through the valve body as well as the installation structure of the steam trap for efficient discharge of condensate water. Has its purpose.

According to the present invention for achieving the above object, a nozzle having a plurality of nozzle holes of different diameters is mounted in the steam trap, and the condensate collected inside the steam trap through which the steam passes is discharged to the outside through the selected nozzle hole of the nozzle. In the steam trap,

The steam trap includes: a steam inlet pipe portion coupled to the steam connection pipe on the side of the valve body; A condensate discharge pipe part connected to the condensate discharge pipe on the opposite side of the steam inlet pipe part; A circular guide groove is formed on the inner bottom surface for mounting and installation of the nozzle on the upper part of the valve body between the steam inlet pipe part and the condensate discharge pipe part, and a screw fastening groove is formed in the center of the guide groove, and at one side of the screw fastening groove. A nozzle installation pipe part having a condensate discharge hole communicating with the condensate discharge pipe part, a condensate discharge path formed on an inner bottom surface outside the guide groove, and a female thread part formed in an inner diameter; A stopper that is fastened to the female screw of the nozzle installation pipe to hermetically seal the inside of the nozzle installed; A steam inlet chamber communicating with the steam inlet pipe is formed under the valve body between the steam inlet pipe portion and the condensate water outlet pipe portion, and a condensate water inlet passage communicating with the condensate water outlet passage of the nozzle installation pipe portion is formed on the side of the steam inlet pipe portion. In the steam inlet chamber, a strainer for filtering sludge is interposed therebetween, and a steam discharge pipe part connected to the steam discharge pipe.

The nozzle according to the present invention has a fixing hole in the center coinciding with a screw fastening groove and fastened with a fixing screw, and the nozzle through hole has a first discharge hole aligned with the condensate discharge hole circumferentially around the fixing hole, and the first A second discharge hole having a diameter smaller than that of the first discharge hole is extended and formed through the discharge hole.

The outer circumference of the nozzle according to the present invention is characterized in that a plurality of corner portions for the position of the nozzle and rotation of the nozzle are formed.

The condensate water discharge hole according to the present invention is formed on one side of the condensate water discharge hole is formed, a position display portion for indicating the position is formed, and between the nozzle hole of the nozzle, a recess for rotating the nozzle from the guide groove is formed. do.

The tip trap according to the present invention has a nozzle located on the upper part of the valve body, and has a plurality of nozzle apertures to prevent clogging of the nozzle, as well as to facilitate maintenance according to replacement and management, unlike the conventional opening and closing screw fastening method. And, by adjusting the position of each nozzle hole of the nozzle according to the discharge amount of condensed water, it prevents the deterioration of other systems in the steam supply, and the overall steam trap is made of stainless material, which shortens the durability life due to air bubbles, cracks, and sludge. Provides the effect of preventing.

1 is a perspective view showing the inventors steam trap,
Figure 2 is a perspective view showing the internal configuration of the steam trap according to the present invention separated,
3 is a front view showing a steam trap according to the present invention,
4 is a plan view showing a steam trap according to the present invention,
5 is a cross-sectional view taken along line AA of FIG. 4;
6 is a cross-sectional view taken along line BB of FIG. 4;
7A and 7B are plan views showing an example in which a nozzle is positioned.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Prior to this, terms or words used in the specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors appropriately explain the concept of terms in order to explain their own invention in the best way. Based on the principle that it can be defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so at the time of application, these can be replaced. It should be understood that there may be various equivalents and variations.

A steam trap equipped with a nozzle 20 having a plurality of nozzle holes 22 of different diameters in the steam trap to discharge the condensed water collected inside the steam trap through the selected nozzle hole of the nozzle to the outside. In (100),

The steam trap 100 is formed by processing a raw stainless steel material. A steam inlet pipe part 11 is provided on the side of the valve body 10 to be fastened to the steam connection pipe 1, and the steam inlet pipe part 11 A condensate discharge pipe part 12 is provided on the opposite side of the condensate water discharge pipe 2 and is fastened.

The steam inlet pipe part 11 and the condensate water discharge pipe part 12 are configured to be connected to the steam connection pipe 1 and the condensate discharge pipe 2 from the outside by having a screw fastening part, and the steam inlet pipe part 11 and the condensate water discharge A nozzle installation pipe part 13 is provided on the upper part of the valve body 10 between the pipe parts 12.

In the nozzle installation pipe part 13, a circular guide groove 13a is formed in the inner bottom surface in the inner diameter for seating and installation of the nozzle 20, and a screw fastening groove 13b in the center of the guide groove 13a ) Is formed, a condensate discharge hole 13c communicating with the condensate discharge pipe 12 is formed on one side of the screw fastening groove 13b, and a condensate discharge path 13d on the inner bottom surface outside the guide groove 13a Is formed, and a female threaded portion 13e is formed in the inner diameter.

A stopper 14 is fastened to the female threaded part 13e of the nozzle installation pipe part 13 to seal the inside where the nozzle 20 is installed, and the position of the nozzle hole formed in the nozzle and replacement of the nozzle through this stopper is You can wash.

In the valve body 10, a steam discharge pipe part 16 is provided under the valve body 10 between the steam inlet pipe part 11 and the condensate discharge pipe part 12.

The steam discharge pipe part 16 is formed with a steam inlet chamber 16a communicating with the steam inlet pipe part, and the condensate water communicating with the condensate water discharge path 13d of the nozzle installation pipe part 13 in a lateral direction in which the steam inlet pipe part is formed. An inflow path 16b is formed, and a strainer 15 for filtering sludge is interposed in the steam inflow chamber 16a.

A screw fastening part is placed on the inner diameter of the lower end of the steam discharge pipe part 16 to be connected to the steam discharge pipe 3.

When looking at the nozzle 20 in detail, a fixing hole 20a is formed in the center of the cylindrical body to match the screw fastening groove 13b and fastened with a fixing screw S, and the nozzle through hole 22 A first discharge hole (22a) corresponding to the condensate discharge hole is arranged in a circumferential shape around the fixed hole (20a), and a second discharge hole (22b) having a diameter smaller than the first discharge hole is extended to the first discharge hole. Is formed through.

A plurality of corner portions 24 for the position of the nozzle and rotation of the nozzle are formed on the outer circumference of the nozzle 22. Here, each part is for easy rotation by picking up the nozzle with a tool for checking the position of the nozzle discharge hole or in a state where the fixing screw (S) is slightly loosened.

On the other hand, at one side where the condensate water discharge hole 13c is formed, a location display part 13f for indicating a location where the condensate water discharge hole is formed is formed.

The location display unit is shown as two circular dots in the drawing, but is formed in an intaglio so that the portion where the condensate discharge hole 13c is located is displayed.

An intaglio groove 21 for rotating the nozzle 20 from the guide groove 13a is formed between any of the nozzle through holes 22 of the nozzle 20. The concave groove 21 is a groove for rotating the nozzle using a flat screwdriver tool in a state in which the fixing screw is slightly loosened.

In the drawings, unexplained reference numeral 17 denotes a drain cap that is fastened to the lower portion of the steam discharge pipe unit 16 to prevent the strainer from being separated, and is connected to the steam discharge pipe 3.

In the steam trap configured in this way, as shown in the attached FIGS. 6 and 7, high-temperature steam including condensed water is introduced through the steam inlet pipe 11, and at this time, the steam is the steam discharge pipe part of the valve body ( It is introduced into the steam inlet chamber 16a that communicates with the inner steam inlet pipe of 16), the sludge is filtered through the strainer 15, and the condensed water passes through the condensate inlet passage 16b.

The condensed water passing through the condensed water inlet path 16b passes through the nozzle through the condensed water discharge path 13d of the nozzle installation pipe 13 in the lateral direction of the steam inflow chamber, and the condensed water passing through the nozzle is seated in the nozzle. Discharge is made to the condensate discharge pipe part 12 and the condensate discharge pipe 2 through the condensate discharge hole 13c on the installed and fixed guide groove 13a.

When the amount of condensed water collected in the steam trap 100 is changed and it is necessary to adjust the discharge rate of the generated condensate to prevent the system performance from deteriorating, the nozzle 20 can be discharged by matching the nozzle hole of an appropriate diameter. have.

That is, the nozzle of the present invention does not regulate the exposure through hole by fastening the opening and closing screws individually fastened to the existing nozzle, and corresponds to the state of FIG. 7(b) attached to the condensate discharge hole 13c on the guide groove. Since only the nozzle through hole 22 can be positioned to match the discharge speed, the steam supply system can be prevented from deteriorating, and if any one of the nozzle through holes 22 is matched, the first discharge hole It is possible to smoothly discharge the condensed water at the set pressure through (22a) and the second discharge hole (22b).

Therefore, components such as the existing opening and closing screws are not required, and the discharge rate of condensed water can be adjusted only by adjusting the position of the nozzle, and by separating the drain cap 17 fastened to the lower portion of the steam discharge pipe unit 16 In addition, the sludge on the side of the strainer 15 therein is periodically treated and used, and the nozzle provides a very unique advantage for maintenance because it can be easily replaced and adjusted after removing the stopper 14 at the top.

As described above, in the present invention, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but this is provided only to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , If a person of ordinary skill in the field to which the present invention belongs, various modifications and variations are possible from these descriptions.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be defined, and all things that are equivalent or equivalent to the claims as well as the claims to be described later belong to the scope of the invention. .

10: valve body 11: steam inlet pipe part
12: condensate discharge pipe part 13: nozzle installation pipe part
13a guide groove 13b: screw fastening groove
13c condensate discharge hole 13d: condensate discharge path
13e: female thread part 13f: position display part
4: plug 15: strainer
16: steam discharge pipe part 16a: steam inlet chamber
16b: condensate inlet passage 17: drain cap
20: nozzle 20a: fixing hole
21: concave groove 22: nozzle hole
22a: first discharge hole 22b: second discharge hole
24: leg S: fixing screw

Claims (4)

A nozzle 20 having a plurality of nozzle apertures 22 of different diameters is mounted in the steam trap to discharge the condensate collected inside the steam trap through the selected nozzle aperture of the nozzle to the outside, and the valve body ( A steam inlet pipe 11 coupled to the steam connector 1 on the side of 10); A condensate discharge pipe part 12 coupled to the condensate discharge pipe 2 on the opposite side of the steam inlet pipe part 11; A circular guide groove 13a is formed in the inner bottom surface for mounting and installation of the nozzle 20 on the upper part of the valve body 10 between the steam inlet pipe 11 and the condensate discharge pipe 12, and the guide groove A screw fastening groove 13b is formed in the center of (13a), a condensate discharge hole 13c communicating with the condensate discharge pipe 12 is formed on one side of the screw fastening groove 13b, and a guide groove 13a is formed. A nozzle installation pipe portion 13 having a condensed water discharge passage 13d formed on the inner bottom surface and having a female threaded portion 13e formed in the inner diameter thereof; A stopper 14 which is fastened to the female screw part 13e of the nozzle installation pipe part 13 to seal the inside of the nozzle 20 installed; A steam inlet chamber (16a) communicating with the steam inlet pipe portion is formed under the valve body (10) between the steam inlet pipe portion (11) and the condensate water outlet pipe portion (12), and the nozzle is installed in the side direction in which the steam inlet chamber is formed. A condensed water inlet passage 16b communicating with the condensed water outlet passage 13d of the pipe 13 is formed, and a strainer 15 for filtering sludge is interposed in the steam inlet chamber 16a to provide the steam outlet pipe 3 and In the steam trap 100 consisting of the connected steam discharge pipe portion 16,
The nozzle 20,
A fixing hole (20a) is formed in the center to match the screw fastening groove (13b) and fastened with a fixing screw (S);
The nozzle through hole 22,
A first discharge hole 22a corresponding to the condensed water discharge hole is arranged in a circumferential shape around the fixed hole 20a, and a second discharge hole 22b having a diameter smaller than the first discharge hole extends in the first discharge hole. Is formed through;
On the outer circumference of the nozzle 20,
A plurality of corner portions 24 for the position of the nozzle and rotation of the nozzle are formed;
On one side where the condensed water discharge hole 13c is formed,
A position display unit 13f for indicating the location where the condensate discharge hole is formed is formed, and between the nozzle through holes 22 of the nozzle 20, an intaglio groove for rotating the nozzle 20 from the guide groove 13a ( 21) Steam trap, characterized in that formed. delete delete delete

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