RU2116556C1 - Steam trap - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: steam trap case is made in the form of corrugated tube with hollow fins. Upper part of cylindrical case is provided with pipe connection closed with cover with additional amount of granules. EFFECT: provision for operation with granular material in horizontal position. 2 cl, 3 dwg

Description

 The invention relates to heat engineering.

 Patent No. 1776341, class F 16 T 1/00, 1992 describes a steam trap for continuously draining condensate from steam-consuming plants and steam pipelines. It consists of a body and a whole-sintered porous insert placed in it, for example, of a porous metal or granular material that creates pores, for example, granules of natural or artificial materials.

 The main disadvantage of the invention is the need to work in an upright position when filling the casing with granular material, since in the horizontal position there is a breakthrough of steam in the upper part - between the casing and the "pressed" steam granular material.

 The objective of the invention is the ability of the steam trap with granular material in a horizontal position.

 The problem is solved by the fact that a small nozzle with a lid is inserted into the upper part of the cylindrical case of the condensate drain filled with granular material consisting of granules of natural or artificial materials, connected by thread or welding, or the case is made of corrugated (bellows) pipe with hollow ribs, or a reduction "live" section of perforated body flanges.

 This solution provides granules with granulated material placed in the housing, which prevents steam from escaping in the upper part of the steam trap - between the housing and the granular material.

 In FIG. 1 shows a General view of the invention with a pipe.

 The steam trap contains a cylindrical housing 1 with a nozzle of granular materials placed in the housing, a pipe 3 with an additional number of granules, gaskets 4, a cover 5 that connects to the pipe 3 by means of a thread (there may be welding), a pair of perforated inlet flanges with a grid 6 and a pair of output perforated flanges with mesh 7, inlet and outlet pipes.

The above device operates as follows. The steam-condensate mixture is input from the steam-consuming equipment into a horizontally located steam trap through a pair of flanges with a grid 6. The condensate, coming under pressure and at a temperature corresponding to the saturation line, as it moves in the pores in the direction of the pair of flanges with a grid 7 boils in the pores of the granular material, heat and mass transfer resulting condensate outlet temperature set in the range of 100 ^o C. The breakdown packed bed steam overpressure is prevented liquefying nnogo granulated material in the pipe 3.

 In FIG. 2 shows a general view of the invention with a corrugated (bellows) pipe with hollow ribs.

 The steam trap contains a cylindrical body 1 made in the form of a corrugated (bellows) pipe with hollow ribs with a nozzle made of granular materials 2, a pair of perforated inlet flanges with a mesh 3 and a pair of perforated outlet flanges with a mesh 4, inlet and outlet pipes.

The above device operates as follows. The vapor-condensate mixture is introduced from the steam-consuming equipment into a horizontally located steam trap through a pair of flanges with a grid 3. The condensate, coming under pressure and at a temperature corresponding to the saturation line, as it moves in the direction of the pair of flanges with a grid 4, boils in the pores of the granular material due to a decrease in pressure 2, as a result of mass and heat transfer, the temperature of the condensate at the outlet is set within 100 ^o C. Breakdown of the vapor layer of the nozzle is prevented by backwater liquefied granular material located in hollow ribs.

 In FIG. 3 shows a fragment of a steam trap with a reduced "live" section, where 1 is a part of the body; 2 - flange; ⌀ is the diameter of the perforation hole; 3⌀ is the distance from the body to the first hole.

 The operation of the steam trap with a reduced "live" cross-section of the flanges is carried out similarly to the two described above. The breakdown of the nozzle layer by steam is prevented by the backing up of the liquefied granular material located above the perforation of the housing flanges - the perforation of the flanges begins with a deviation from the edge of the housing of a distance equal, for example, to four diameters of the perforation hole.

 The use of the invention allows the steam trap to work in a horizontal position, which contributes to the compact strapping of steam-consuming equipment, and in confined spaces due to saturation of the equipment with pipelines for various purposes, to achieve a certain ease of use.

Claims (2)

 1. A steam trap containing a cylindrical body with perforated flanges and a grid, inlet and outlet pipes, a nozzle of granules of natural or artificial materials, placed in the body, characterized in that the body is made in the form of a corrugated pipe with hollow ribs.  2. A steam trap containing a cylindrical body with perforated flanges and a grid, inlet and outlet pipes, a nozzle of granules of natural or artificial materials, placed in the body, characterized in that the upper part of the cylindrical body is equipped with a pipe with a cap with an additional number of granules.

Images