DE2363166B2 - HYDRAULIC MACHINE - Google Patents

Description

The invention relates to a hydraulic machine according to the preamble of claim 1 and the ίο from the DT-PS 10 64 439 known Art.

In the known machine, the change in direction of the tangential component of the water flow takes place on a comparatively short way. This increases the overall efficiency of the system, which results from the "5 Combined efficiency of the pump part and the turbine part, adversely affected.

The invention is based on the object of a

Machine of the considered ArI to create which is the change in direction of the tangential component

of the water flow to improve the overall degree of lungs can be done in a longer way.

The object on which the invention is based is achieved by the features of the characterizing part of the Claim 1 solved.

The machine according to the invention offers the advantage that it has improved flow conditions that lead to an increase in the overall efficiency.

Are known from the DT-PS 6 06 894 and the CH-PS

1 70 180 hydraulic machines with on common

Turbine and pump impellers arranged on shafts.

However, these machines have two volute casings and therefore take up more space. Besides, the

the effort required to manufacture them is greater than for a machine of the type under discussion here

Genus.

The drawing shows schematically and by way of example an embodiment and three variants of the invention Machine. In it shows

F i g. 1 an axial section through the machine,
F i g. 2 shows a section along the lines H-II, III-III and IV-IV of FIG. 1,

3 shows an axial section through the first embodiment variant,

4 shows an axial section through the second variant embodiment,

F i g. 5 shows a section along the line V-V in FIG. 4,

F i g. 6 one of the F i g. 5 similar partial view of the third variant embodiment.

The machine shown in Fig. 1 comprises a single volute 12, a single-stage turbine and a single-stage centrifugal pump. The turbine wheel 15 and the pump wheel 23 sit on a common vertical axis 13 with their oppositely directed suction openings. The blading of these wheels is intended to run in the same direction of rotation.

The turbine wheel 15 is practically in the middle

Arranged level of the spiral housing 12. The duct that feeds the turbine wheel 15 is gan2 housed in the annular space created by the circumference of this wheel and the cylindrical inner Wall of the spiral housing is delimited. The tangential direction of flow of the water in the volute

is maintained along this entire canal without change (see Fig. 2, section H-H).

The webs of the inlet guide device 4 of the turbine are similar to those arranged in Francis turbines Design designed. The same applies to the Leitschau

[a 5 which together make up the adjustable diffuser Form turbine. This diffuser is controlled by a common mechanism consisting of a Sliding ring II exists and acts via tabs 1 on the pivot pin 2 of the guide vane 5.

A gap slide 3 allow 'it, the interior of the spiral housing 12 from the interior in which the Turbine 15 rotates to separate. The adjustable vanes 5 of the diffuser could of course serve the same purpose. The gap slide 3 is between the Vorleitapparat 4 and the Guide vane 5 connected, but it could also be between the guide vanes 5 and the turbine wheel 15 lie.

The pump wheel 23 adjacent to the turbine wheel Ii5 sits at a fairly large distance from the central plane of the volute 12.

A fixed element 16 of the housing, which supports the bearing 19 of the shaft 13: is between the said wheels 15 and 23 switched. On the circumference of the stationary element 16 of the housing are deflection channels 7 arranged, which the hydraulic connection between the impeller 23 and the spiral housing 12 guarantee. The webs 8 of this element 16 form the side walls of the deflection channels 7 (FIG. 2).

Various annular chambers 17, 20, which surround the shaft, are located on both sides of the bearing in the element 16 and are connected to the outside air via channels 18, 21 which penetrate the wall of the webs 8. ^ ₀

This group of chambers 17, 20 ensures various functions such as the oil circuit of the Storage, drainage of leakage water from the waterproofing of the wheels, ventilation and cooling or the water drainage.

The impeller 23 is overhung on the end of the common shaft 13 and its completely exposed Suction opening 24 is therefore fed under the most favorable hydraulic conditions.

The outlet 9 (diffuser) with its usual blading (see Fig. 2 section III-III) is on Arranged circumference of the pump wheel. It changes the direction of the tangential component of the from the Impeller 23 not flowing out of water. Its design and its connection with the deflection channels corresponded to the design that is used in the return ducts of the multi-stage pumps.

The deflection channels 7, into which the outlet 9 of the pump opens, ensure the hydraulic Connection and the progressive change in direction of the tangential component of the water flow between the circumference of the pump wheel 23 and the volute casing 12. They open into this volute casing a point 6 at an angle which corresponds to the water flow coming from the channels 7 Direction imposed which corresponds approximately to that of the water flow in the volute casing (see Fig. 2 Section IV-IV).

A gap slide 10 is between the circumference of the pump wheel 23 and its outlet 9 (diffuser) switched and allow "the interior of the spiral housing 12 from the space in which the impeller 23 turns to separate.

Numerous variants of the embodiment explained are still conceivable. *> 5

Open out according to the variant shown in FIG the deflection channels at a different point on the outside of the spiral housing 12. These deflection channels can consist of several separate lines 22. In this case the channels 18,21 are in the The most suitable places of the element 16 are arranged, the webs of which are no longer necessarily the side walls of the deflection channels.

According to the in F i g. 4, the deflection channels consist of several separate lines 22, which are arranged outside of the element 16 to which they are not directly connected.

These lines 22 open at the point 6 of the outer circumference of the spiral housing under one Angle which imposes a direction on the water flow that is approximately that of the water flow in the Volute casing corresponds !. You could also open out on another outside of the housing wall.

The cross-sectional view according to FIG. 5 of this variant shows the hydraulic design of the pump and turbine.

The lower part of this figure shows Teilspirakn 25, the are arranged on the circumference of the pump wheel 23 and which are each extended by a pipe socket 26 which serves as an outlet (diffuser) and feeds a deflection channel 22.

According to the in F i g. 6, the partial spirals 25 are shown on the circumference of a diffuser with fixed blades 9 arranged. The pipe socket 26 could also have one over its entire length have constant cross-section.

The gap slide 10 can be replaced by individual shut-off means in each of the two Variants mentioned separate lines are installed.

The shaft of the machine can be vertical, horizontal or inclined. The wheels of the turbine 15 and / or of the pump 23 can be radial, diagonal or axial gears.

The pump can be two-stage with its overhung rotor, with the turbine one stage or can also have two stages. The shaft can also be of the type (like that of the double Francis turbine), which duichsetzt the turbine and the pump, which have one or more stages can.

The pump can be equipped with adjustable dilfusors. The respective location of the neighboring Turbine and pump wheels, with respect to the middle plane of the volute, can be as above Description, but it can also be inverted.

Among the technical and economic advantages that the pump turbine described has the following can be listed:

The change in direction of the tangential component of the water flow progressively occurs and generates lower losses in d; n diversion lines. This process can therefore between the output de Pump diffusers and the volute are effected. This was with the previously known "Isogyre-Ma machines «excluded. Whatever the form given to the curved diffusers, the The curvature of the stream filaments generated secondary currents will tear off the in the diffuser cause delayed flow, causing considerable energy losses.

All of the cingc Structured elements of the turbine are designed in the same way and act like those of a corresponding one

classic turbine. The ones caused by the curved webs of the turbine in the older version additional losses are suppressed and the efficiency in turbine operation is increased without to impair the power output in pump operation.

In the case of the known machines, the additional losses, which were due to the in the curved Secondary flows occurring due to webs of the turbine are within acceptable limits held by an acceleration is generated in the flow through these webs, which with a strong oversized volute casing is achieved. In the case of the machine described, however, the design corresponds the webs of the construction commonly used in the Francis turbines, with the Experience is used to achieve the smallest energy loss by using a smaller one Volute casing is used.

The achievement of the optimal degree of efficiency is guaranteed by doing a material saving and a reduction in the space requirement of the machine sets is achieved, which is due to the dimensions of the Power plant and the construction costs have a favorable effect.

In exceptional cases in which the economic importance of the pump operation is that of the turbine gear there is the possibility of increasing the efficiency of the pump (for slight disadvantage of the turbine) by changing the relative positions of the pump and turbine wheels in relation to the middle level of the volute. The diffusers of the pump then open directly into the volute casing, whereby these elements are designed according to the experiences made, to achieve optimal performance. The progressive change in direction of the tangential component the water flow is then ensured through the deflection channels, which the spiral housing with the Connect the nozzle of the turbine.

The presence of a guide bearing between the turbine and pump rotors is clear structural advantages and generates favorable hydraulic effects. The critical circulation speeds the shaft are thereby prevented more easily without it being necessary to increase their diameter beyond that of the transmitted torque to increase the required value, so that this shaft comes cheaper. the Gaps in the waterproofing of the wheels can be kept smaller, as there is a radial run-out error of the same is no longer to be feared and the leakage

ι ο is reduced in favor of the efficiency.

The floating bearing of the rotor completely releases the suction opening of the P ¹ UmPe in favor of the cavitation behavior of your wheel. Cavitation erosion is reduced under the same pressure conditions and the machine can be exposed to lower pressure conditions with the same risk of erosion. A reduction in the operating and construction costs can thereby be educated.

In the known machines, the switched on between the turbine and pump wheels is permitted Joint waterproofing does not mean that the axial pressures are optimally balanced under all operating conditions to achieve. In the machine described, the corresponding seals can be used individually for size each wheel and reduce the axial pressures to much smaller values.

The drainage of the leakage water from the waterproofing of the wheels has been carried out until now Achieved by means of channels, which into the lying between the adjacent pump and turbine wheels, central sole were drilled. These channels then penetrate the webs of the spiral housing. Execution These channels presented difficult-to-solve problems in terms of editing, which was costly. In the The machine described are the chambers used for receiving the leakage water, which are located in the Bearing supports are incorporated and the channels for draining the same, more economical to manufacture. Fernet the drainage of the leakage water is made easier because the drainage channels are shorter and straighter.

In addition 5 sheets of drawings

Claims (10)

Patent claims: 1. Hydraulic machine with a turbine part and an oppositely directed suction port having pump part, in which a turbine wheel and a pump wheel on a common Sitting on the shaft and alternating in the same direction of rotation in a single one on the one hand The diffuser of the turbine part and, on the other hand, the volute casing connected to the outlet of the pump part work, the interior of the volute casing from the space in which the turbine wheel or the pump wheel rotates, is separable, characterized in that one (15) of the two Wheels (15, 23) practically in the middle plane of the spiral housing (12) sits on the shaft (13) while the other wheel (23) at a distance from the first wheel (15) mounted on the shaft (13) i: st and about to Change of direction of the tangential component of the water flow between him (23) and the Spiral housing usable channels (7, 22) with the spiral housing (12) is in connection. 2. Machine according to claim I _1, characterized in that a fixed element (16) of the spiral housing is arranged between the two wheels (15, 23) which carries the bearing (19) for the shaft (13). 3. Machine according to claims 1 and 2, characterized in that the stationary Element (16) of the spiral housing different annular chambers (17, 20) are located, which the Surround the shaft and are connected to the outside air via channels (18, 21). 4. Machine according to claims 1 to 3, characterized in that the direction change Serving channels (7) connected to the spiral housing by a partition divided by partitions annular chamber of the fixed element (16) of the housing are formed. 5. Machine according to claims 1 to 3, characterized in that the direction change Serving channels (22) at least partially consist of pipe sockets which are attached to the spiral housing are connected. 6. Machine according to claim 5, characterized in that the pipe socket gate valve assigned. 7. Machine according to claims 1 to 6, characterized in that the turbine wheel (15) in the im essential middle plane of the spiral housing and the pump wheel (23) axially from this plane is arranged remotely, the channels (7, 22) for changing direction the outlet of the diffuser (9, 26) of the pump (23) with the volute casing (12). 8. Machine according to claims 1 to 6, characterized in that the pump wheel (23) in the im essential middle plane of the spiral housing (12) and the turbine wheel (15) from this plane is arranged axially remote, the channels (7, 22) for changing the direction of the spiral housing (12) Connect to the nozzle (5) of the turbine. 9. Machine according to claims 1 to 8, characterized in that the wheels (15, 23) on the Are arranged butt of a common shaft (13), the impeller (23) so on Is supported butt end that the suction opening (24) for the pump wheel (23) is completely free. 10. Machine according to any one of claims 1 to 8, characterized in that the pump and / or the turbine is multi-stage.