SU1020681A1 - Device for removing condensate out of horizontal pipeline - Google Patents

Description

The invention relates to pipe fittings, namely, devices for draining condensate from horizontal pipelines, such as compressed air systems.

A device is known for draining condensate from horizontal pipes, which has a conical tapered outlet channel filled in the lower wall of the pipeline, filled with a liquid absorber, and a collection tank is installed at the open end of the channel. absorber, as well as the impossibility of ensuring the removal of condensate from systems operating under excessive pressure.

The closest to the proposed technical entity is a device for draining condensate from horizontal pipelines, containing a discharge channel made in the pipe wall in its lower part, communicated with a fixed condenser 2 under it,

A disadvantage of the known device is the low reliability of condensate from the gas-liquid mixture stream from water, since the inlet section of the outlet channel is flush with the wall and part of the condensate is entrained in the gas stream and directed to the consumer.

The purpose of the invention. Improving the reliability of the condensate.

This goal is achieved by the MTQ in a device for draining condensate from horizontal pipelines, containing an inlet duct in the pipe wall in its lower part communicating with a condensate discharger fixed underneath, the pipe wall behind the outlet channel is shifted from additionally installed a bimetallic damper, while the layer of the latter, facing the channel, is made of a material with a lower coefficient of linear expansion than opposing .

The drawing shows the device, General view.

Device for draining condensate from horizontal pipelines

contains in the wall of the pipeline 1 in the lower part of the outlet channel 2 with a steam trap 3. fixed below it. (along the gas-liquid mixture is shifted relative to the wall 8 to the channel 2 to the axis of the pipeline 1. On the wall 7 a bimetallic valve 10 is installed above the channel 2, layer 11 of which, facing the channel 2, is made of material with a lower linear expansion coefficient than the opposite layer 12.

The device works as follows.

Pipeline 1 transports a gas or vapor working fluid, such as compressed air. When the temperature of compressed air decreases, water vapor condenses on the walls of pipeline 1. Under the action of gravitational forces, the condensate flows into the lower part of the pipeline 1 and moves under the action of the flow to the outlet (Channel 2, having a protrusion directed towards the flow of condensate, formed by walls 7 and 8. There is a condensate entering the outlet channel 2 a certain level, the float valve 5 opens, and the condensate is discharged from line 1. The presence of a constant level of condensate in the steam trap 3 eliminates the loss of gaseous working fluid (air or steam).

Cooling the flow of the working fluid causes deformation of the valve 10. Since the layer 11 is made of a material with a lower linear expansion coefficient than layer 12 above it, the valve 10 rises upward to meet the flow, ensuring good separation of the condensate and dumping it into channel 2. With increasing the temperature of the stream and, consequently, the decrease in its humidity, the amount of condensate to be separated decreases and the valve 10 approaches wall 8, reducing to a minimum value of 10206814

The hydraulic resistance of the stepped discharge channel to the flow. By using a flow deflecting counter, it is possible to increase the reliability of the condensate in the condensate drain valve and the condensate drainage system by realizing it.

Claims (1)

DEVICE FOR CONDENSATE DRAINAGE FROM HORIZONTAL PIPELINES, containing the outlet channel made in the wall of the pipeline in its lower part, in communication with a steam trap fixed under it, characterized in that, in order to increase the reliability of the condensate drain, the pipe wall behind the outlet channel is shifted relative to the wall to the channel a bimetallic damper is additionally installed on the axis of the pipeline and on the first, while the layer of the latter facing the channel is made of material with a lower coefficient linearly of expansion than the opposite. , 1020681 2