DE532307C - Rotary machine with graduated surfaces of the runner and stand and with ring-shaped rows of obliquely arranged cells in the runner - Google Patents

Description

It is in rotary machines, such as. B. Steam turbines, known, the neighboring Graduating surfaces of the rotor and the stator and the clearance between them To measure areas as closely as possible in order to reduce the loss of work equipment, e.g. B, steam, to be kept as low as possible. It is also known for the purpose of making good use of the working medium to provide the rotor with a plurality of annular rows of obliquely arranged cells consisting of enclosed U-shaped Channels exist, with a knife edge between the two middle rows of cells is arranged and the stand a corresponding number of oppositely arranged, Has U-shaped exhaust ducts.

However, machines of this type have not brought the expected advantages, which is mainly is due to the fact that the working fluid flowing through each channel Channels in the stand is only fed into a single cell and thus only an imperfect utilization of the energy of the working medium takes place.

It is also known in steam turbines with blades, the steam in the outer Introduce branches of double U-shaped runners and through the inner arm of the To discharge cells into a chamber lying on the same level and in front of the runner, this chamber has channels which the escaping steam in a larger number of runner cells, which are in the same plane and in front of those of which the Steam has been released. The relaxing steam acts on you here increasing number of cells, but these are all in the same plane, and the The energy of the steam is only used incompletely.

The present invention relates to a vane-less rotary machine or Turbine in which the adjacent surfaces of the rotor and the stator are stepped and the clearance between these surfaces is as narrow as possible, whereby the rotor has a plurality of annular rows of obliquely arranged cells which consist of enclosed U-shaped channels, and between the two middle ones A knife edge is arranged in rows of cells, while the stand has a corresponding one Has number of oppositely arranged, U-shaped exhaust steam channels.

According to the invention, the mouths of the cells are in the runner and the exhaust ducts extended in the stand so that the agent emptied from each of the middle cells in two exhaust ducts led into the stand ffo

and from there into three cells in the next row on either side of the middle one Rows flows in, whereupon the agent in the low-pressure part is sent into four exhaust steam channels on each side of the stand \ vird to of these in five cells in the next annular row on each side of the runner to flow in and continue to branch out in this way until 'the entire ίο The relaxation power of the remedy has been used up. With this arrangement, the energy of the agent is used in a far better way than in the previously known arrangements, and the operating force becomes more expedient Distributed way over the whole machine, because the agent first at high pressure in the In the middle of the machine comes into effect and on it under constantly decreasing pressure against the ends of the machine too. An embodiment of the invention is shown in the drawings.

Fig. Ι shows a section through the rotary machine. The section is made through the rotor axis and shows schematically the cells and exhaust openings lying in the section plane and steam channels.

Fig. 2 shows an irregular section

through part of the machine according to Fig. 1.

The planes of the sections A ₁ B ₁ C and D are indicated in Fig. 1 by the dashed lines AA ₁ BB, CC and DD.

Figure 3 is an exterior view of a portion of the machine near one of the forward live steam nozzles. The stand has been partially removed, revealing part of the runner surface. This figure is drawn on a larger scale than Figs. 1 and 2.

Figure 4 is an exterior view of another part of the machine near a reverse fresh steam nozzle. The stand is partially removed so that part of the side face of the runner is visible. This figure is also drawn to a larger scale than Figs. 1 and 2.

The rotor α is arranged on a shaft b which is supported in bearings c . The rotor rotates in a stand d, through the walls of which forward live steam nozzles e and backward live steam nozzles / are passed, which supply live steam to the high-pressure cells of the individual cell sets, which over the outer surface and the side surfaces of the rotor in a manner to be described are distributed.

The housing is carried in the middle by the bearing and by flanges and can move in the changing temperatures expand and contract freely, with the wave remains in the set position.

The circumferential cells of each set lie in a line parallel to the Axis and extend over the entire width of the runner from one side to the other, as can be seen in Fig. 3.

The high pressure cell g of each set of circumferential cells is in the center of that set.

Each cell has the shape of two U-shaped channels g ¹ , g ² , which are connected to one another and lie in a plane that is tangential to an arc of a circle, the radius of which is slightly smaller than the radius of the rotor (excerpts in Fig. 2 ). The common leg g ^{s of} the two U-shaped channels is provided opposite the cell mouth g ^s with a knife ^{edge g 4} = , against which the nozzle e directs a stream of steam when the cell mouth, which is elongated, passes the nozzle.

The knife edge divides the steam jet into two streams, which are directed from the curved sides of the knife edge into the opposing legs g ¹ , g ^z . The steam then flows through the openings g ", g ⁷ into the exhaust-steam channels h, i of the stand and is fed from these to the low-pressure nozzles y, k , which direct the steam flow against cells ^, m , which are of the same shape as the cell § · are, but have larger dimensions than these.

The steam supplied to the cells I, m , which has a lower pressure, is directed against the knife edges I ¹ , m ¹ , whereby the steam flows are divided again and directed into the U "-shaped channels on both sides of the knife edges. The steam flows then through the openings P, m ² into the exhaust ducts m, ο in the stand and is fed from these to the low-pressure nozzles p, q , which direct the steam flow against cells r, s that are of the same shape as the cells /, m but have larger dimensions.

The steam supplied to the cells r, s , the pressure of which is even lower, is directed against the knife edges r ¹ , s ¹ , from which the steam jets are again divided and deflected into the LJ-shaped channels on both sides of the knife edges. The steam then flows through the exhaust ducts t, u and the main exhaust pipes v, w to a condenser.

When the nozzle e is immediately opposite a cell mouth g ^s , the runner receives a push in the forward direction. This shock is caused by the impact of the steam against the bottoms of cells g, I ₁ m, r, s and by the recoil of the exhaust steam flowing out. But as soon as the mentioned position has been passed, the nozzle simultaneously emits steam to the next cell

mouth g, which is now approaching, and to the cell mouth which is moving away. In this position, receiving two cells g steam, and since the waste steam channels of both cells during this time with two channels h in the stator are in communication are proposed three nozzles / or k g on each side of the cell vapor at the next processing stage. Since each nozzle is connected to two cells / or m , the three nozzles on each side will send the low-pressure steam into four cells / or m , the exhaust-steam channels of which are connected to the channels η or ο in the stand. From these the steam arrives in five nozzles p or q, which the steam (the pressure of which has decreased further) in six cells r or.? send in. These are emptied into seven exhaust steam ducts t or u in the stator, from which the exhaust steam flows through one or more of the main exhaust steam lines ν and w into a condenser (not shown).

In this way the steam from each nozzle e will act on twenty-two cells in the rotor and on forty-four exhaust ducts in the stator.

In order to ensure that the cells and the evaporation ducts are completely rinsed out, the mouths of the outermost exhaust-steam ducts in the stand are extended so that they form the exhaust-steam duct the last cell in the row before or after the steam receiving cells.

On the surfaces of the rotor α radial cell sets 1, 2, 3 are arranged, which are inclined in opposite directions. These cells empty into U-shaped channels 4, 5 in the opposite surfaces of the stand d, through which the live steam nozzles f are also passed for the reverse run.

The high pressure cell 1 in each set consists of two interconnected U-shaped Channels 6, 7. The common leg 8 of these channels has a knife cutting video.

on the opposite of the cell mouth 10 lies. This receives live steam when it passes the nozzle. The knife edge divides the steam flow into two streams running from the curved sides of the cutting edge into the oppositely directed legs 11, 12 of the U-shaped channels are deflected. From there the steam flows through the openings 13, 14, the exhaust steam channels 15, 16 in the Stand and through the low pressure nozzle 17, which the exhaust steam against the U-shaped cell 2 aligns, the dimensions of which are larger than those of cell 1.

The steam sent into the cell 2 , the pressure of which is lower, passes through the other arm and through the opening 18 into the exhaust steam channel 5 in the stand. This guides the steam into the low-pressure nozzle 19, which directs the waste steam against the low-pressure cell 3.

The steam supplied to the cell 31 is in deflected the other arm, passed through the openings 20, 211 in the main exhaust pipes 22, 23 and finally flows into the condenser.

When the nozzle is directly opposite the cell mouth 10 is located, the runner receives a shock in the reverse direction. This shock is caused by the impact of the steam against the bottom of cells i, 2, 2 and by recoil. As soon as the mentioned position is passed, the nozzle simultaneously gives steam to the next Cell orifice 10, which is now approaching, and to the retreating cell orifice. In this position two cells 1 80 'receive steam, and there the exhaust channels of both Cells during this time in connection with two exhaust steam channels 15, 16 in the stand stand, three nozzles 17 will emit exhaust steam in the next work stage. There each nozzle 17 communicates with two cells 2, the three nozzles are the low pressure steam send into four cells 2, whose exhaust steam channels each with two exhaust steam channels 5 are connected in the stand, which feed the steam to five nozzles 19. Through this Nozzles, the steam flows into six nozzles 3 and finally passes through the exhaust steam ducts these nozzles and the openings 20, 21 into the main exhaust pipe.

The steam from each nozzle / thus acts on twelve cells in the runner and twelve Exhaust ducts in the stand.

The steam flows through the tube 24 into the steam chamber 25 - and from there it passes into the annular tubes 27 and 28, which feed the nozzles e via the connecting pieces 26 provided with suitable control valves 29. Steam is also fed to the ring pipes 31 located on both sides of the machine, which feed the nozzles / via pipes 30 which are also provided with control valves.

The gap between the rotor and the stator is set to a small value herabge- n is ₀ and by annular flanges aiuf the interrupted part which engage with a very narrow margin in grooves on the other part, so that a strong resistance to the flow as possible of the work equipment is created.

The mouths of the cells and the evaporation channels are wider than those with these Share interacting nozzles and openings and are from the corresponding cells and exhaust channels of the sets behind and in front of them by knife-edge

partitions separated so that a path was created which offers less resistance than the space between the stator and the rotor. This gap is almost completely blocked by condensed steam or some other means, that of the centrifugal force in the gaps in and near the circumference of the rotor is thrown.

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Claims (1)

Claim: Rotary machine in which the adjacent surfaces of the rotor and the Stands are graduated and the space between these surfaces is as narrow as is dimensioned possible, wherein the rotor has several annular rows of obliquely arranged cells, which are enclosed U-shaped channels exist, and a knife edge is arranged between the two middle rows of cells is, while the stand a corresponding number of oppositely arranged, Has U-shaped exhaust ducts, characterized in that the mouths of the cells and evaporation channels are elongated in such a way that the agent emptied from each of the middle cells is divided into two Exhaust steam ducts in the stand and from there into three cells in the next row on both sides of the middle rows, whereupon the agent in the low-pressure part flows into four exhaust-steam channels on each side of the stand, in order of these in five cells in the next annular row to flow in on each side of the runner and branch out further in this way, until the entire relaxation power of the remedy is used up. For this purpose 2 sheets of drawings