DE2615811A1 - Bypass and blocking valve for condensate drain - has two valves with rear face seals and drain bypass - Google Patents

Abstract

The bypass and blocking arrangement is used for condensation drain. The draining channel is bypassed by a short circuiting channel. Two valves are provided for releasing or blocking the inlet and outlet openings of the drain and also for the short circuiting channel. Both valves are provided with seals for the spindle packing glands and the same components can be used in both valves. The valves (4, 5) controlling the inlet and outlet (2, 3) for the drain (1) have closure elements (10) arranged axially between the spindle bearings (12) and the valve seats (8, 18). The valves have sealing faces (13) facing the spindle bearings and provided with matching seats (14). The short circuit channel (6) is controlled by the closure element (20) on one valve spindle.

Description

Bypass and shut-off device

for steam traps The invention relates to a bypass and Shut-off device as specified in the preamble of the main claim.

The advantage of such a facility is a shutdown of the arrester, e.g. for maintenance or repair, without simultaneous interruption of operation in the connected system. For this purpose, the two dem Downstream and downstream valves that block the inflow and outflow of the downcomer and at the same time an otherwise closed bypass channel for the condensate drain is released. If necessary, it can also be done by shutting off the short-circuit channel by means of one valve and the blocking of one of the two trap connections by means of the other valve a complete prevention of the condensate drainage take place.

In a known version (DU-PS 840 247) this points to the arrester downstream valve on a single-seat closure part, which is axially between his Valve seat and the bearing of its valve spindle is arranged. The upstream of the arrester Valve of the known device has in addition to a closure part for blocking of the arrester inflow a secondary closure part to control the short-circuit channel on. Both locking parts are firmly connected to one another to form a double locking element, which is arranged between two opposing valve seats. The before and the downstream valve thus largely differ in their structure and the formation of their individual parts from each other.

The invention is based on the object of a bypass and shut-off device to create the type mentioned, in which both valves in structurally simpler Way are equipped with back seals for the spindle glands and at the same time Identical individual parts are used to a large extent in both valves.

The task at hand is achieved through the application of the Part of claim 1 specified features of the invention solved.

Due to the back seals provided on both valves, the Stuffing boxes of the valve spindles against the pressure in the valves when the trap inlet is released. and outflow are shielded from the prevailing operating pressure. This avoids the downstream Valve between the closure part controlling the drainage outlet and the secondary closure part existing relative stroke mobility that there to achieve both a proper Back sealing as well as a secure barrier of the EurzschuSkanal tight, production-hostile Distance tolerances between the back sealing part and the secondary closure part on the one hand and the rear seat and the auxiliary valve seat to the other. The closing the secondary closure part is made due to its self-closing ability, caused by the valve spring and the closing effect of the operating pressure in the bypass channel is given, parallel to the opening of the main closure part.

For the upstream and downstream valves there is also the option of identical locking parts together with actuating devices for controlling the arrester supply and drain as well as identical valve housings to be used.

The subclaims provide advantageous developments of the invention at.

Claim 2 shows a particularly inexpensive training an axial guide for the secondary closure part, while building on it Claim 3 indicates an advantageous arrangement of the valve spring.

The features of claim 4 offer the possibility of the transmission power of the short-circuit channel in a simple manner to the circumstances of the respective application to be able to customize. Claim 5 serves to achieve the greatest possible Identical construction of the upstream and downstream valve.

In the drawing is an embodiment of the invention Bypassing and shut-off device shown. It shows: Fig. 1 a condensate drain with bypass device partially in longitudinal section and FIG. 2 shows the device Fig. 1 in plan view.

A steam trap 1 with an inlet 2 and an outlet 3 is a valve 4 upstream and a valve 5 downstream.

On the outlet side, the valve 4 is on the one hand connected to the arrester inflow 2 and on the other hand connected to a short-circuit channel 6 and has in its housing 7 has two coaxial valve seats 8, 9 facing away from one another. With the valve seat 8 a closure part 10 cooperates. Whose valve spindle 11 is in one of the Valve seat 8 opposite spindle bearing 12 guided adjustable stroke. Each other facing a rear sealing surface 13 and a rear sealing seat 14 on the spindle bearing 12 or on the closure part 10 is provided. With the valve seat 9 in turn acts Throttle cone 15 together, which in a spindle bearing 12 diametrically opposite Cover 16 of the housing 7 is held adjustable by screwing.

The inlet side of the valve 5 is on the one hand connected to the outlet 3 of the diverter 1 and on the other hand connected to the short-circuit channel 6 and has in its housing 17 also have two coaxial valve seats 18, 19 facing away from one another. With the Valve seat 18 acts together with the same closure part 10 as in valve 4. as well are a valve spindle 11, a spindle bearing 12, a back sealing surface 13 and a Rear seal seat 14 is provided. The valve seat 19 is assigned a secondary closure part 20, at its one end an actuating shaft projecting up to the closure part 10 21 and at its other end has a guide pin 22 which is in a Blind hole 23 of a housing cover diametrically opposite the spindle bearing 12 24 slides with lifting motion. A valve spring 25 also surrounds the guide pin 22. It is supported on the housing cover 24 as an abutment and acts via a Support shoulder 26 on the secondary closure part 20.

For the operation of the arrester 1, the two closure parts 10 of the valves 4.5 brought into the fully open position, the back sealing surfaces 13 on their rear sealing seats 14 come to bear sealingly. The stuffing boxes not shown the valve spindles 11 in the spindle bearings 12 are thereby against the then in the Valves are shielded from the operating pressure. The risk of possible leakage the stuffing boxes during the trap operation is thus prevented.

At the same time, the sub-shutter 20 is closed, namely under the action of the valve spring 25. over the closure part 10 are on the Secondary closure part 20 exerted no closing forces, since both closure parts 10, 20 are relatively movable against each other. The length of the actuating shaft 21 is included dimensioned so that in the aforementioned open position of the closure part 10 and the Closed position of the secondary closure part 20 between the actuating shaft 21 and the closure part 10 an axial gap is created. This will also A reliable sealing with production-favorable length tolerances of the valve components both the back seal 13, 14 and the secondary closure part 20 made possible. The latter prevents condensate from flowing through the short-circuit channel 6 during the trap operation.

Taking the arrester 1 out of operation, e.g. for maintenance or repair purposes, can be done by closing the two shut-off points 8,10 and 18,10. With the Screwing down the closure part 10 in the valve 5 is via the actuating shaft 21 at the same time the secondary closure part 20 is moved into the open position.

Any condensate that accumulates can thus overflow during the trap shutdown the short-circuit channel 6 drain. The throttle cone 15 allows an adjustment the transmission capacity of the short-circuit channel to the respective requirements.

By closing the shut-off points 8.10 and 19.20 together a simultaneous prevention of the condensate flow both through the trap 1 as well as through the short-circuit channel 6.

In addition to the back seals 13, 14 for the spindle bearings 12, there would also be the same direction of actuation for both valves 4, 5 in the important operating circuits "Arrester operation" and "Arrester shutdown with operation via the short-circuit channel" as well as the largely identical construction of the two valves 4.5 as special advantages to note.

Claims (5)

Claims 9 bypass and shut-off device for steam traps with a short-circuit channel bypassing the arrester and two for both the inlet and outlet openings the arrester as well as the valves that shut off or release the short-circuit channel, of which one valve is upstream and one downstream of the trap, d a d u r c h g e k e n n n n n e i n e t that in the valves (4,5) the inflow and outflow (2,3) of the arrester (1) controlling closure parts (10) axially between the spindle bearing (12) and the valve seat (8,18) are provided that the two closure parts (10) or their valve spindles (11) with the spindle bearings (12) facing back sealing surfaces (13) and the spindle bearings (12) are provided with corresponding rear sealing seats (14) and that a secondary closure part (20) controlling the short-circuit channel (6) in the downstream valve (5) against the closure part which controls the trap drain (3) (10) is arranged so that it can move relative to the stroke, with an actuating shaft (21) providing the connection between the two closure parts (10, 20) that have their valve seats between them (18,19), while a valve spring (25) the secondary closure part (20) in the Sense of closing loaded. 2. Device according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the housing (17) of the downstream valve (5) the spindle bearing (12) diametrically opposite a housing cover (24), which with a axial blind hole (23) is provided, and that the secondary closure part (20) a bears guide pins (22) mounted so as to be movable in stroke in the blind hole (23). 3. Device according to claim 1 and 2, d a d u r c h g e -k e n n z e i c h n e t that the valve spring (25) surrounds the guide pin (22) concentrically arranged and between the Housing cover (24) and a support shoulder (26) is axially clamped on the secondary closure part (20). 4. Device according to one or more of the preceding claims, d u r c h e k e n n n z e i c h n e t that the upstream valve (4) in the The flow path to the short-circuit channel (6) has a throttle point which has a stationary Valve seat (9) and one independent of the closure part (10) in the valve housing (7) includes adjustable throttle cone (15). 5. Device according to claim 4, d a d u r c h g e k e n nz e i c h n e t that the housing (7) of the upstream valve (4) the spindle bearing (12) of the closure part (10) has a housing cover (16) diametrically opposite, in which the throttle cone (15) is held in a screw-adjustable manner.