SU1209989A1 - Steam trap - Google Patents

Description

This invention relates to a device for draining condensate from systems operating under pressure.

The aim of the invention is to increase the reliability of operation under conditions of variable high overpressure.

The drawing shows a steam trap, a general view,

The steam trap includes a housing 1 with a lid 2. At the bottom of the housing 1, an outlet 3 is installed, in which the saddle 4 of the valve is installed. In the lid 2 of the housing 1 there is a float 5 made flat, for example, from heat-resistant material of any arbitrary shape. A spring 6 is installed between the housing 1 and the float 5. The float 5 is positioned above the inlet 7 and connected to the post 8 of the housing 1 using two levers E and 10. The lever 9 is connected to the float 5 by the hinge 11, and to the post 8 by the hinge 12. The lever 10 is connected to the float 5 by the hinge 13, and to the stand 8 by the hinge 14. Vertically mounted HITOK 15 with the conical locking member 16 is connected by the hinge 17 to the lever 9. T1, using a plug 18, closes the opening through which the seat 4 is mounted. 5, close to plane-parallel On the other hand, the hinges 11 and 12 of the lever 9 and the hinges 13 and A of the lever 10 are set so that the distances between them are not equal and can differ from each other by an amount not exceeding 20% of the length of the lever 9. In the lower position of the float 5 hinges 12 and 17, the stem 15 and the seat 4 are the same and placed in the vertical plane.

The steam trap works as follows.

When condensate enters the inlet 7 into the body 1, the float 5, unloaded by the spring 6, floats the screw and turns the levers 9 and 10. At the initial moment, the hinge 17 of the rod 8 moves in a direction close to horizontal. Further, as the level of condensate increases, the rod 8 rises up and its locking member 16 is detached from the saddle 4. The condensate through the outlet 3 is removed from the condensate drain. As

when the float 5 approaches the upper position, the gap between the locking member 16 and the seat 4 increases and the conical part of the locking member 16 is exposed to condensate pressure, which facilitates the ascent of the float 5. When steam enters the condensate drain, the latter accumulates in the upper part of the cover 2, the condensate level decreases, the float 5 is lowered down, the rod 8 by the locking member 16 closes the outlet 3. With the help of levers 9 and 10, the locking member 16 is seated on the saddle 4 at low speeds, which provides After the completion of the condensate drainage, the rod 8 takes a vertical position, and the presence of overpressure in the condensate trap ensures that the locking member 6 is pressed in the saddle 4, which eliminates the release of condensate.

Claims (2)

1. CONDENSATOR DRAINAGE, comprising a housing with inlet and outlet openings, connected by a lever connection to the housing of the float and connected to the last exhaust valve with a vertical stem and a locking member interacting with a seat installed in the outlet, characterized in that, in order to increase reliability , the lever connection of the float with the body is made in the form of two levers, the ends of which are pivotally mounted on the float and on the body, while the distances between the opposite joints of the levers are not equal to each other, and the rod Apaana pivotally connected to the upper leg member. 2. Steam trap according to π. 1, characterized in that it is provided with a spring installed between the housing and the float, and the latter is made continuous. y s © s © QO with ©>