DE833044C - Single-line relaxation stage for elastic propellants - Google Patents

Description

Single-crown relaxation stage for elastic propellants It is known in single-ring steam turbines, the steam jets emerging from the rotor blade ring to be collected in guides that are shaped so that by -a repeated flow of the blade ring the outlet loss is reduced. With the known proposals the re-entry of the steam jet takes place on the same side of the rim as the steam outlet preceding it. This speed gradation only brings one low gain in efficiency.

It is now proposed that the steam jets after flowing through the To collect the blade ring in diffusers, in which the outlet speed reduced and thereby the pressure and the heat content is increased and the steam then with the remaining speed through channels to the steam inlet side of the wreath and to relax there by additional nozzles, so that it flows through the same blade ring a second time, in the direction for which the blade profiles are designed. That through the diffuser effect The heat gradient achieved is used in this way to generate work.

The embodiment shows a stage according to the invention. The blade carrier from which the blade channels are machined or into which the blades b are inserted is denoted by a. From the live steam nozzle sets c, the steam reaches the blade ring b and is then captured by the diffuser end. Its high outlet energy is for the most part converted into potential energy, so that only small losses occur when the flow passes through the adjoining channels e. They open into the nozzle sets f, which sit on the same side of the wheel as the main steam nozzle sets c. Without the use of a second blade ring, additional relaxation work is gained. In addition to your second blade ring, a part of the ventilation loss of the blade ring b is saved, which is not only blown from the nozzles c, but also from the nozzles f.catif. The body containing the diffuser end and the ducts (, also carries the additional nozzle sets t. It usually occurs several times, is arranged symmetrically to the turbine axis, and is installed in the turbine housing so that it can move with heat and thereby, tt to spare the usual shrouds, ground with riiigf;> riiiigeri limitations provided that finit the Schatifelkaital cover small radial gap laundri RME I> et @ cgliche suspension in the turbine housing by the IZadialschulter / t and the centering i. allows the K; ir per ri to expand more rapidly than the blade ring carrier and thus an enlargement of the gap when starting up, so that starting from any heat condition can take place as quickly as possible. In the operating condition, i.e. after all parts have been warmed through, the small gaps are again present urid keep the leakage losses within permissible limits.

As a single-ring small turbine for medium and small outputs and gradients, the stage is particularly suitable for low production costs and is characterized by its high operational sensitivity. It can be assembled directly with a gear k, if the machine to be driven has to be operated at a lower speed than the adjacent steam turbine of this type, which is particularly suitable for high speeds. In multi-stage turbines, too, the control stage can be designed as a single-ring clamping unit according to the present invention and can replace a multi-ring Curtis wheel. If a normal, single-ring control wheel is provided for the multi-stage turbine, its nozzle sets can be supplemented according to the invention by nozzle sets c, which are dimensioned for partial load and relax in the connected nozzle sets t via diffusers d and channels e. This arrangement ensures that with partial loads and a correspondingly large gradient of the control stage, the single-ring control wheel is acted upon twice by the steam 1), while with a high load only one application takes place, so that the efficiency is improved at partial loads. In the case of turbines, there are finite two live steam control stages the second 1 Zegelsttifc crtindungsgcmä (5 eut- wreath running, \\ t above the her directly fresh steam supplied dui -: - li crtludtuigs accordingc Nozzles flows, during that in the first IZcgelrad and possibly the following, # e »d (, i1 turbine part in front of relaxed steam through normal I) iisensät>: e striimt between the @ üscus @ itzen c mid f nil- are ordered. With this arrangement, it works with heavy load because zwcitcii bevel gear supplied, Live steam with better efficiency. Generally Advantages can be achieved with Fahrzcugtnrhin s ». if at low @rebzahlcit by the bc- Schrbenen Einri # -hitnigen der 1, ziufscliatifelkranz is flowed through twice, \\: ilii-end hei high rotational pay nozzle sets for low-flow flow gc, iitfriet are.

Claims (1)

YATENT CLAIMS: i. Unidirectional I: stress level for elastic cal propellant, characterized in that on the entry side of the 1_atifraides except dcu Live steam nozzles additional nozzles: arranges and on the Atistrittsscite Ditlusors arranged and finite with the additional nozzles through channels verl) tiutl (, ii are, so that they are the im Steam after the first 1) tirchsti-ötncii of the running blade ring existing flow velocity converting time into an exploitable gradient tnid feed the steam to the additional nozzles. 2. Single-crown relaxation stage according to saying t, denied that the Steam ducts from the diffusers too the downstream nozzles in bodies below that are thermally movable and sym- metric to the "turbine axis in the turbine housings are built in. 3rd stage of relaxation after an Proverbs i and 2, characterized in that dalj the bodies that the ditfusorcu and subsequent switched nozzles included, the one without a shroud executed rotor blade ring all around Cover the catch with a small radial gap. ,1. One-wreath relaxation stage after arrival saying i, characterized in that they Nozzle sets for one-time and nozzle sets for flow through twice next to each other holds that for: mutually different develop- tension conditions are formed.