SU370316A1 - VSSO; GSH? RG: HOO :: -:; ^^^? ^; <- ^ Л; Т '; • .- i '^ - Google Patents

Description

one

The invention is a fixed SIPHONE to remove condensate, for example, from a drying cylinder of a papermaking machine and is intended for use in the pulp and paper industry.

A fixed siphon is known for removing condensate, for example, from a drying cylinder of a papermaking machine, including a siphon / tube and a suction head.

The purpose of the invention is to intensify the process of removing the condensate from the cylinder and to use the hydrodynamic lifting forces of the liquid.

This is achieved by installing a floating hollow nozzle with an annular partition in the suction head of the siphon, and the shape of the bottom of the nozzle and the annular partition corresponds to the shape of the inner surface of the drying cylinder, and an ejector device with a nozzle is built over the suction head of the siphon.

FIG. 1 shows the proposed fixed siphon IB section; in fig. 2 and 3 - schematic arrangement of the fixed siphon in the drying cylinder.

A fixed siphon consists of a composite si; a background tube / with flanges, bolted 2, a restriction device 3, located in the lower part of the siphon pipe 1, an ejecting nozzle 4, a suction head 2

5, fastened to the thread and fixed with a lock nut 6, a hollow nozzle 7, which can be made, for example, of a polymeric antifriction material (fluoroplastic).

The shape of the bottom and the annular partition 8 in the hollow nozzle 7 involve the use of hydrodynamic lifting forces of the liquid.

The fixed siphon is located in the rotating cylinder 9.

The condensate in the rotating cylinder of the paper of the printing machine is usually in the state of the water ring pressed

to the walls of the cylinder by centrifugal force.

None: When the speed of rotation of cylindiNs is rotating, the condensate does not form a ring, but accumulates in the lower part of the cylinder.

The proposed siphon design provides reliable operation in both cases. In the presence of a rotating ring of condensate nozzles 7, the action of the hydrodynamic lifting force of water "floats up and is located on its inner surface. Through the annular opening in the nozzle, the condensate enters the restriction device 3 and further along the siphon pipe / is sent to the condensate system. The lifting force, under the action of which the condensate rises along the discharge pipe /, is caused by the vapor pressure drop in the cylinder 9 and the condensate system, as well as by the action of centrifugal forces in the rotating condensate ring. By measuring the suction of the condensate, the thickness of the condensate ring is reduced, and the floating nozzle 7, located on the surface of this ring, is lowered by its own weight. This process takes place until the condensate ring is turned into a thin film, on the surface of which the floating nozzle 7 slides.

The non-condensable gases that accumulate at the periphery of the cylinder and some of the vapor flow through the nozzle 4, at the same time creating an ejecting effect, also contributing to the removal of condensate.

If by some kind of balances (for example, lowering the temperature of the incoming steam) the thickness of the rotating condensate ring increases, the floating nozzle will rise, thereby increasing the gap between the inner surface of the cylinder and the nozzle, and hence the intensity of the condensate drain. Thus, the undesirable phenomenon of condensate accumulation in the cylinder is quickly eliminated.

In the event that the rotational speed of the cylinder is insufficient to form a ring and condensate accumulates in the lower part of the cylinder, "flooding the nozzle on the level of condensate and keeping it at this level is due to the pressure of the incoming fluid on the annular partition of the nozzle, thereby increasing its condensate section for passage and, therefore, the intensity of the allotment. As the amount of condensate decreases, the nozzles descend. Thus, in this mode of operation of the cylinder, the position of the "floating nozzle relative to the inner surface of the cylinder, and, consequently, the intensity of condensate drainage, depending on its amount in the cylinder, is automatically adjusted.

Subject invention

Claims (2)

1. A fixed siphon for removing condensate, for example, from the core of a paper machine, including a siphon tube and a suction head, characterized in that, in order to intensify the process of removing condensate from the cylinder and using hydrodynamic lifting forces of a liquid, in a suction head  A floating hollow nozzle with an annular partition is mounted, and the shape of the bottom and the annular partition of the nozzle corresponds to the shape of the inner surface of the drying cylinder. 2. The fixed siphon according to claim 1, characterized in that an ejection device with a nozzle is built above the suction head of the siphon.