RU2052172C1 - Device for discharging condensate - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: device has housing 1 with branch pipes 2,5, and 3 for supplying and discharging condensate and discharging vapor, float 7 provided with central bushing 8 and positioned inside the housing, outlet valve 9 with a seat, throttle made up as a stack of thin flexible plates 10 bearing on rod 11, and open tank 12. The float is closed and its central bushing passes through the float bottoms and secured to them. The branch pipe of the outlet valve is secured to the bushing. The throttle, the rod of which bears on the housing cover, is mounted inside the bushing. One of adjacent plates 14 of the stack is provided with a by- pass made up as vertical slot 15 in the central bushing. Each of the plates can move in the radial direction. The distance between the plates are equal to the height of distant bushings 16. The bushing and plates are arranged with a small spaces relation to each other. EFFECT: improved design. 2 cl, 1 dwg

Description

 The invention relates to energy, and in particular to devices for condensate drainage, for example, heating steam from regenerative and network heaters of thermal power plants.

Known steam trap containing a housing with inlet, condensate, steam outlet, open type float with a central sleeve and a rod passing through it, resting on a spring, and an exhaust valve is attached to its lower end [1, 2]
The disadvantages of this device are the design complexity of the two-seat valve and the support node of the open float.

The closest solution to the technical nature and the achieved result, adopted as a prototype, is a device for condensate drainage, comprising a housing with inlet and condensate outlet pipes, an exhaust valve made in the form of a pipe attached to an open float equipped with an open vessel formed on top the upper bottom and upper part of the shell of the float through which the Central sleeve [3]
The disadvantages of this device are the complexity of the open float containing the inner open float, with which the level of condensate in the outer float is maintained. This fact does not exclude with a guarantee the passage of steam from the heater through the steam trap and reduces its reliability.

 The problem solved by the invention is to increase reliability.

 The specified problem is solved as follows.

 In a steam trap containing a vertical housing with condensate inlet and steam outlet pipes in the cover and a condensate outlet pipe in the bottom, a float with a central bushing located in the housing, an exhaust valve, its seat located in the form of a housing, a throttle made in the form of a package of thin, elastic plates resting on the stem, an open vessel formed by the upper bottom and upper part of the shell of the float, the float is closed, its central sleeve passes through the bottoms of the float, attached to it, the outlet pipe The valve is attached to the central bushing, it contains a throttle, the stem of which rests on the housing cover, and one of the middle plates of the bag is equipped with a bypass made in the form of a vertical slot in the central bushing, each throttle plate has a degree of freedom in the radial direction, the plates are each other from each other at a distance equal to the height of the spacer bushings, while there is a slight gap between the bushings and plates.

 The essence of the invention lies in the fact that in a closed float due to the flow through the cavity of its throttled condensate, a free surface is formed at the level of, for example, 50% of the height of the float. As a result, a sufficient restoring force is achieved on the valve both during lifting and during landing, while the steam trap is structurally simple. The essence of the invention lies in the fact that jamming of the throttle plates due to the possibility of their movement in the radial direction is excluded. These features provide high reliability.

 The drawing shows a steam trap, the exhaust valve of which is in the "closed" position, a longitudinal section.

 The possibility of carrying out the invention is confirmed by the description of the steam trap in a static state and in operation.

 The steam trap contains a vertical housing 1 with nozzles for supplying condensate 2 and 3 steam outlet in the cover 4 and condensate drain pipe 5 in the bottom 6, a closed float 7 with a central sleeve 8, an exhaust valve 9, a valve seat located in the bottom of the housing, the throttle, made in the form of a package of thin, elastic plates 10, resting on the rod 11, an open vessel 12, formed by the upper bottom and the upper part of the shell of the float, the supporting part 13 of the rod is made spherical and rests on the housing cover, exhaust valve 9 attached to the central sleeve 8, the package of throttle plates is placed in the central sleeve, one of the middle plates 14 is equipped with a bypass made in the form of a vertical slit 15, each throttle plate has a degree of freedom in the radial direction, which means the difference between the diameter of the hole in the plate and the diameter of the rod is greater the differences between the inner diameter of the Central sleeve and the outer diameter of the plate, the plate are from each other at a distance equal to the height of the spacer sleeves 16. In this case, between the bushings and the plates there is gap considerably.

 The steam trap operates as follows.

 Condensate with bubbles of steam flows through pipe 2 into an open vessel 12, where the condensate and steam are separated. Steam through pipe 3 returns to the heater. The condensate stream is divided into two. One of them overflows over the edge of the vessel, enters the exhaust valve and leaves the steam trap through the gap between the exhaust valve and its seat. Another stream, very insignificant, enters the central sleeve 8, through the gaps between it and the plates 10 into the exhaust valve and leaves the steam trap. At the same time, this flow (steam-water), when approaching the plate 14, is poured through the upper part of the slot 15 into the cavity of the closed float 7, where the condensate and steam are separated and the condensate free surface forms at the level of the lower edge of the slot. Steam and condensate through the lower part of the gap (under the plate 14) expire and, having passed the lower part of the package of plates, leave the steam trap. Steam is also generated in the float because the condensate in it is in a boiling state, since the temperature of the condensate in the cavity of the housing 1 is higher than in the float, and heat exchange is carried out through the wall of the float. In the presence of condensate in the float, the force exerted by both the valve opening and closing can be assumed equal and sufficient to guarantee the reliability of the steam trap. Using the package of plates 10 is the hydraulic discharge of the valve.

Claims (2)

 1. Condensate drain containing a vertical housing with condensate and steam inlets in the cover and a drain pipe with an outlet valve in the bottom, a float coaxially placed in the housing with a container on the cover in the form of a glass and a throttle made in the form of thin elastic plates fixed to the rod characterized in that it is equipped with a coaxial tube with a hole in the form of a vertical slot fixed in the lid and the bottom of the float, inside of which there is a throttle with a rod resting on the lid of the housing, while the th valve is formed by the lower end of the tube adjacent to the end of the drain pipe.  2. The steam trap according to claim 1, characterized in that it is equipped with spacer sleeves installed between the throttle plates with a gap.