DE102019202834A1 - Valve stem guide for a steam expander and steam expander - Google Patents

Abstract

The invention relates to a valve stem guide for a steam expander with a housing, with at least one opening running in the housing for receiving a valve stem; wherein - a sliding bush is inserted into the opening, which has an inner guide surface for forming a sliding bearing for the valve stem; - the sliding bush is screwed directly or indirectly into the housing; A valve seat ring is inserted into the opening in the housing coaxially to the slide bushing. The valve stem guide according to the invention is characterized in that the slide bushing is only inserted into the valve seat ring.

Description

The present invention relates to a valve stem guide for a steam expander according to the preamble of claim 1, and to a steam expander with such a valve stem guide.

Valve stem guides of the generic type are used to guide the valve stem of an inlet valve or an outlet valve of a steam expander in piston engine design, also called steam engine. Such a valve stem has an end region on the valve body side and an end region facing away from this, correspondingly remote from the valve body, between which the region of the valve stem guided by means of the valve stem guide extends as a rule. The end region of the valve stem on the valve body side carries and / or actuates a valve body which, together with a valve seat of the valve, opens and closes an inlet or an outlet for the working medium steam of the steam expander so that it enters the cylinder chamber or out of the cylinder chamber in individual cycles of the steam expander can flow, depending on whether it is an inlet valve or an outlet valve.

Since special sliding requirements are placed on such a valve stem guide, the valve stem guide is often provided with or formed by a sliding bushing which is inserted into a housing, for example a crankcase, of the steam expander. Conventionally, the insertion takes place by producing a press fit, that is, the construction of a so-called interference fit between the sliding bush and the housing surrounding it in order to achieve a force-locking connection. As a rule, the housing is provided with an opening, in particular a bore, for the sliding bushing and the sliding bushing is strongly cooled before it is inserted, the housing being able to be heated at the same time, so that the sliding bushing contracts and the opening in the housing in particular expands so that the sliding bush can be inserted into the opening. After a temperature equalization between the sliding bush and the housing, the desired press fit results.

Although this type of embodiment of a valve stem guide was based on a solution that has been common in practice for many decades, in practice there have recently been irregular losses in efficiency during the operation of steam expanders, the cause of which was initially unclear. After the inlet valves and outlet valves were partially damaged, which led to the steam expander failing, investigations have shown that the opening and closing behavior of individual inlet valves and outlet valves has changed during operation of the steam expander.

According to DE 10 2014 218 365 A1 The aforementioned problems are due to the fact that the press fit of the sliding bushing in the housing was temporarily loosened due to thermal expansion of the housing, so that the sliding bushing could be displaced within the housing by applying force to the sliding bushing via the frictional forces of the valve stem. The press fit was re-established as the temperature conditions changed during further operation, but now with a different position of the sliding bush within the housing. DE 10 2014 218 365 A1 therefore suggests screwing the sliding bushing into the housing, directly or indirectly. The indirect screwing in can be done by screwing the sliding bush into a valve seat ring.

The ones in the DE 10 2014 218 365 A1 The proposed embodiment, in which in particular a distance is provided between the sliding bushing and the valve seat ring so as not to hinder relative thermal expansion, has proven to be susceptible to wear and tear and subsequently a leak in the area of the valve seat ring in practice. The cause was initially unknown.

The present invention is based on the object of specifying a valve stem guide for a steam expander which avoids the problem of wear and leakage in the area of the valve seat insert. The valve stem guide should be characterized by a particularly reliable operation of the corresponding valves with a long service life.

The object of the invention is achieved by a valve stem guide with the features of claim 1. In the dependent claims, advantageous and particularly expedient embodiments and a steam expander according to the invention with such a valve stem guide are specified.

In detail, a valve stem guide according to the invention for a steam expander has a housing which is, for example, a component of the crankcase of the steam expander. An opening running in the housing is provided for receiving a valve stem, the opening running in particular in the direction of a longitudinal axis of the housing.

According to the invention, a sliding bushing is inserted into the opening which has an inner guide surface for forming a sliding bearing for the valve stem. Thus the valve stem can with slide its outer surface directly on the inner guide surface of the sliding bush, a material pairing is advantageously chosen at this interface or this plain bearing that offers favorable lubricating properties. For example, the sliding bush is made of brass and the housing is made of steel.

According to the invention, the sliding bushing is screwed into the housing, either directly, that is, the sliding bushing and the housing each have a thread, the two threads being in engagement with one another, or indirectly, that is, the sliding bushing has a thread that is connected to a thread of a counter element cooperates, which in turn is locked in place in the housing.

According to the invention, the sliding bushing is only inserted into the valve seat ring, that is to say inserted free from a screw connection. In particular, the sliding bushing is inserted loosely into the valve seat ring, that is to say with play between the sliding bushing and the valve seat ring.

The valve seat ring has, for example, a central bore which has a diameter that is greater than the outer diameter of the sliding bush, at least in the end facing the valve seat ring. For example, the diameter of the bore in the valve seat ring is at least 1/100 mm or 1/10 mm larger than the outer diameter of the sliding bush.

By (loosely) inserting the sliding bushing into the valve seat ring, the sliding bushing is guided laterally, in particular over the full circumference of its end facing the valve seat ring, so that leverage forces previously acting on the sliding bushing are safely diverted without bending the sliding bushing. In particular, in the region of the end facing the valve seat ring, the sliding bush is on the one hand enclosed by the material of the valve seat ring and on the other hand is enclosed by the material of the housing adjacent to the valve seat ring. Accordingly, there remains no free space radially outside the sliding bushing inside the housing.

According to an advantageous embodiment of the invention, the sliding bush has an external thread on an outer surface, by means of which the sliding bush is screwed into an internal thread provided in the opening. The external thread on the sliding bush advantageously extends only over part of the axial length of the sliding bush. This is advantageous in order to reduce undesired introduction of force into the thread as a result of thermal expansions over the thread length. In particular, the internal thread in the housing also extends only over part of the axial extent of the sliding bush or the axial section which the sliding bush faces in the opening.

According to an advantageous embodiment, the sliding bushing has a stop by means of which it strikes the housing when the sliding bushing is screwed into the housing or when the sliding bushing is screwed into the housing. The stop can be designed, for example, in the form of a collar protruding in the radial direction on the sliding bush. The stop strikes, for example, on the end face of a surface of the housing surrounding the opening.

With regard to the thermal expansions that occur during operation, it is particularly advantageous if the external thread on the sliding bushing adjoins the stop in the axial direction. This can minimize the risk of a sliding bushing that is tensioned by screwing into the housing loosening, and disadvantageous thermal expansions in the thread are reduced.

In order to be able to screw the sliding bushing into the housing and in particular to be able to brace it with its stop against the housing, the sliding bushing can have a driving profile at one axial end. The driving profile can, for example, have the shape of an external hexagon. However, other profiles are also possible, for example an internal drive such as hexagon socket or Torx (hexalobular socket). Other external drives are also possible.

According to one embodiment, the driving profile is provided at the axial end of the sliding bushing, on which the external thread and in particular the stop is positioned.

According to the invention, the valve seat ring inserted coaxially to the sliding bushing in the housing preferably forms a valve seat for the inlet valve or outlet valve to which the valve stem is assigned. The valve stem carries, for example, as shown at the beginning, at its axial end, which is advantageously more or less enclosed by the valve seat insert, a valve body which, together with the valve seat, more or less restricts the opening cross-section of the valve depending on the position of the valve body relative to the valve seat .

In order to accommodate the valve seat ring, the opening in the housing can be designed to be stepped widened at its axial end facing the valve seat ring, so that the diameter of the opening expands in one step to a comparatively larger diameter that is adapted to the outside diameter of the valve seat ring. Of the According to one embodiment, the valve seat insert can be pressed into the opening in the housing, that is, an undersize fit is provided between the outer diameter of the valve seat insert and the inner diameter of the opening, in particular the enlargement in the opening. However, it is also possible to introduce the valve seat ring into the housing in a different way, for example to glue, caulk, weld or screw it in.

It is not absolutely necessary that all valve stem guides in a steam expander are designed with sliding bushings inserted into the valve seat rings. Rather, only a part of the valve stem guides can be designed accordingly, whereas in another part of the valve stem guides an axial gap is provided between the valve seat ring and the sliding bush, namely in valve stem guides on which a lower leverage acts.

A steam expander according to the invention has at least one cylinder or a plurality of cylinders, for example two cylinders, each of which has a cylinder space and a cylinder piston. The cylinder piston is displaced by steam expansion in the cylinder space and can drive a crankshaft.

The or each cylinder space is connected to a steam supply of the steam expander via an inlet valve and to a steam outlet of the steam expander via an outlet valve. At least one inlet valve, which shuts off the steam supply after the cylinder space has been filled with steam, and / or an outlet valve, which blocks the steam discharge after the steam has been discharged from the cylinder space, has / have a valve seat, a valve body and one on the valve body for its movement relative to the valve seat connected valve stem, which is slidably mounted in a valve stem guide according to the invention.

The invention is to be explained below using exemplary embodiments and the figures.

• 1 einen Teil eines Dampfexpanders im Bereich des Einlassventils, jedoch noch ohne die erfindungsgemäße Ventilschaftführung;
• 2 ein Ausführungsbeispiel eines Dampfexpanders mit zwei erfindungsgemäß ausgeführten Ventilschaftführungen.

Show it:

• 1 part of a steam expander in the area of the inlet valve, but still without the valve stem guide according to the invention;
• 2 an embodiment of a steam expander with two valve stem guides designed according to the invention.

In the 1 is the area of an intake valve 15th a steam expander shown. The inlet valve 15th opens and closes the flow cross-section for steam from a steam supply 18th through which the steam enters the cylinder space 19th of the steam expander is conducted. In the cylinder space 19th the expanding steam moves the cylinder piston 20th along the cylinder liner 21st and thus drives over the piston rod 22nd a crankshaft not shown here. The cylinder liner 21st forms with the outer surface 23 of the cylinder piston 20th a pairing that is optimized in terms of sliding properties. However, this is not absolutely necessary, rather the cylinder piston could 20th also directly on a surface of the housing 1 slide.

In the case 1 is also a sliding bush 5 used in which the valve stem 4th of the inlet valve 15th slides. In the embodiment shown, the sliding bush 5 inserted sliding elements 24 on which a plain bearing for the valve stem 4th form. Accordingly, the sliding elements 24 a guide surface 6th for the valve stem 4th on. However, this is not absolutely necessary, rather the valve stem could 4th also directly in the body of the sliding bush 5 slide so the inner surface 25th the guide surface for the valve stem 4th would form.

The valve stem 4th carries the valve body at one axial end 17th , the one with the valve seat 12 cooperates to by varying the distance of the valve body 17th to the valve seat 12 the flow cross-section in the steam supply 18th adjust. The valve seat 12 is here by a valve seat insert 11 that is in the case 1 is used, formed, but could also directly in the housing 1 be executed.

The sliding bushing differs from the present invention 5 not up to the valve seat insert 11 extended and inserted into this, but there is a distance between the sliding bush 5 and the valve seat insert 11 intended. The other features shown here can, however, also be provided in a valve stem guide designed according to the invention.

At the other end of the valve stem 4th is a spring element 26th provided here in the sense of closing the inlet valve 15th works. Thus, the inlet valve 15th by applying a force to the valve stem by means of a camshaft, not shown here 4th against the force of the spring element 26th , here in the form of a compression spring.

The sliding bush 5 has over a portion of the axial section of the into the opening 3 in the housing 1 pasted outer surface 7th , here over significantly less than half the axial length of the inserted outer surface 7th an external thread 8th on that into an internal thread 9 in the opening 3 is screwed in, in such a way that the sliding bush 5 with the above covenant 27 on one end face of the housing in the axial direction of the opening 3 strikes and is tense. This also causes the sliding bush to slip 5 inside the opening 3 prevents if the housing 1 in the area of the opening 3 due to the proximity to the cylinder space 19th and for steam supply 18th is heated more than the sliding bush used 5 and is therefore subject to greater thermal expansion.

In the 2 further valve stem guides of the steam expander are shown, the two middle valve stem guides shown being designed according to the invention, whereas the two outer ones are different. Corresponding elements are numbered with corresponding reference symbols.

In the embodiment according to 2 are four openings 3 with inserted sliding bushes 5 provided, the two middle ones for guiding the valve stem 4th one inlet valve each 15th serve and the two outer ones to guide a valve stem 4th of exhaust valves 16 . The sliding bushes 5 again have a covenant 27 as a stop to clamp the respective sliding bushing 5 in the housing 1 when the sliding bush 5 with their external thread 8th into the internal thread 9 in the opening 3 is screwed in. In the area of the axial end of the sliding bush 5 with the federal government 27 is a take-away profile 10 , for example in the form of an external hexagon, is provided, which has a drive for screwing in the sliding bush 5 in the housing 1 offers.

In the direction of the longitudinal axis 2 every opening 3 is next to the sliding bush 5 a valve seat insert 11 into the opening 3 inserted, of a valve seat 12 trains. With the valve seat inserts 11 that are coaxial with the sliding bushings 5 the outer openings 3 in the housing 1 are used, the shape largely corresponds to that of the valve seat ring 11 according to the 1 . The valve stem guide has an axial gap 14th between the sliding bushes 5 and the valve seat inserts 11 on. The two inner valve seat rings 11 however, have a significantly greater axial extent (extent in the direction of the longitudinal axis 2 ) open and close in contrast to the outer valve seat inserts 11 not flush with the housing 1 from, but protrude from this and protrude into an attached lid.

Deviating from the representation according to 1 is in the embodiment according to 2 the guide surface 6th the sliding bushes 5 directly through the inner surface 25th the sliding bushes 5 educated.

The two outer sliding bushings 5 are in the circumferential direction only from the housing 1 enclosed. The two inner sliding bushes 5 however, extend into the respective valve seat ring 11 and are plugged into it. The respective valve seat insert thus effects 11 a radial guide for the sliding bush 5 and prevents them from bending. The sliding bush 5 is "free" in the valve seat insert 11 inserted, without a screw connection or an undercut, so that different thermal expansions of the sliding bush 5 and the valve seat insert 11 or the housing 1 are not obstructed and the sliding bush 5 in the direction of the longitudinal axis 2 in the valve seat insert 11 can move.

In the 2 is also the position of the crankshaft 28 shown, which is driven by the cylinder piston, not shown here, via the piston rods. Also is the position of the camshaft 29 shown, the cams (not shown in detail but only partially) the valve stems 4th against the force of the spring elements 26th actuate. The spring elements 26th support themselves outside the federal government 27 this enclosing the front side of the housing 1 from.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102014218365 A1 [0005, 0006]

Claims (9)

Valve stem guide for a steam expander with a housing (1); with at least one opening (3) running in the housing (1) for receiving a valve stem (4); wherein a sliding bush (5) is inserted into the opening (3) and has an inner guide surface (6) for forming a sliding bearing for the valve stem (4); the sliding bush (5) is screwed directly or indirectly into the housing (1); wherein a valve seat ring (11) is inserted into the opening (3) in the housing (1) coaxially to the sliding bush (5): characterized in that the sliding bush (5) is only inserted into the valve seat ring (11). Valve stem guide according to Claim 1 , characterized in that the sliding bush (5) has an external thread (8) on an outer surface (7) by means of which the sliding bush (5) is screwed into an internal thread (9) introduced into the opening (3). Valve stem guide according to Claim 2 , characterized in that the external thread (8) and in particular also the internal thread (9) extends only over part of the axial extent of the opening (3) in the housing (1) and only over part of the axial extent of the sliding bush (5) /pass. Valve stem guide according to Claim 3 , characterized in that the sliding bush (5) has a stop, in particular in the form of a collar (27) protruding in the radial direction, with which it strikes the housing (1) when the sliding bush (5) is screwed into the housing (1), and that the external thread (8) adjoins the stop in the axial direction. Valve stem guide according to one of the Claims 1 to 4th , characterized in that the sliding bush (5) has a driving profile (10), in particular in the form of an external hexagon, at one axial end. Valve stem guide according to one of the Claims 1 to 5 , characterized in that the opening (3) has a stepped design, in particular at one of its axial ends, with an extension (13) into which the valve seat ring (11) is inserted. Valve stem guide according to Claim 6 , characterized in that the valve seat ring (11) is pressed into the opening (3), in particular with an interference fit. Valve stem guide according to one of the Claims 1 to 7th , characterized in that the sliding bush (5) is inserted into the valve seat ring (11) with a certain amount of play. Steam expander with at least one or a plurality of cylinders, which have a cylinder space (19) and a cylinder piston (20), the cylinder space (19) having an inlet valve (15) with a steam supply (18) and an outlet valve (16) with a Steam discharge is connected, and at least one inlet valve (15) and / or one outlet valve (16) a valve seat (12), a valve body (17) and a valve stem (4) connected to the valve body (17) for its movement relative to the valve seat (12) ), which in a valve stem guide according to one of the Claims 1 to 8th is slidably mounted.

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