SU936255A1 - Dc source of electric machine type - Google Patents

Description

 :. The invention relates to electrical engineering, and specifically to the device of direct current sources of the electric machine type (IPET), and can be used in power supply systems of TpaHcnopTfwx means. An IPET is known that contains an electrical machine whose T-phase output winding is connected to a semiconductor rectifier D.,. The disadvantage of said IPET is a high level of ripple of the rectified voltage depending on the number of phases of the output winding, the rectifier circuit, the parameters of the electrical machine and its load mode. For example, in IPET with a three-phase winding and a full-bridge bridge rectifier, the voltage ripple in the nominal mode reaches the value. The closest in technical essence to the invention is a DC electric power source containing a t-phase p-pole electric machine, a bridge rectifier and a pulsation suppressor of rectified voltage. 8 of this IPET, the voltage ripple limiting device is an electrical filter consisting of chokes and a capacitor and included in the output circuit of the rectifier 1 t2. . However, the mass and dimensions of such IPET when working on consumers with stringent requirements on the level of voltage ripple (di 8) increase significantly mainly due to a sharp increase in the mass and dimensions of the filter throttles (the weight of the throttle is close to the mass of the electric machine). The aim of the invention is to reduce the mass and dimensions of IPET. This goal is achieved by the fact that the pulsation limiter is made in the form of an additional electric machine with a “mouth” pole inductor mounted on the generator shaft and a single-phase ring winding, connected in series in the output circuit of the rectifier. In this case, the single-phase annular winding of the additional machine is made of two branches connected in parallel between each other and shifted relative to each other by a spatial angle equal to Jf / 2pm. FIG. 1 is depicted with IPET's electrical circuit; in fig. 2 - additional electric machine, cross section; Fig. 3 shows voltage diagrams that illustrate the process of limiting voltage ripples for the idle mode of IPET without taking into account the higher harmonics in the variable component of the rectified voltage. IPET contains a three-phase electric machine 1, a bridge rectifier 2 and an additional electric machine 3. A load is connected at the output of the IPET. An additional electric machine 3 contains an inductor 5, a single-phase ring winding 6, a stator core 7. The IPET works as follows. At the output terminals of rectifier 2 in idle mode IPET voltage. 3, a), which contains, besides the constant component, a variable, the frequency of which is 2 times higher than the frequency of the voltage of the electric machine 1. The inductor 5 of the additional machine 3 is fixed on the inductor shaft of the main machine 1, and the same frequency is induced in the winding 6 That is what constitutes the variable variable. 3, b). Winding 6 is connected in series to the output circuit of rectifier 2 in such a way that its EMF is in phase with the variable component of the voltage Uj |. FIG. Sv depicts a graph of the resulting load voltage at idle mode IPET. When the load of the IPET changes, the amplitude of the variable component of the voltage Uj changes, so it is advisable to make the additional electric machine 3 adjustable depending on the mode of operation of the IPET. The winding 6 of the ring makes it possible to exclude the influence of the MDS from the constant component of the current IPET on the MDS excitation of the additional machine 3, since the magnetic flux from the MDS of the direct current IPET closes along the core 7. The magnitude of the alternating 9 54 current in the winding 6 is small, since it determined by approximately equal antiphase voltages, hence the mode of operation of the additional machine 3 is close to idle. The weight and dimensions of the core 7 of the additional machine 3 are significantly reduced when winding 6 is made of two parallel branches offset from each other by a spatial angle at which the emf of the branches is antiphase. Combining the beginning of one branch with the end of the other leads to the flow along parallel branches of equal constant flows, the MDS of which are directed towards each other. Consequently, in the core 7 there is no constant magnetic flux component. Thus, the proposed IPET has a smaller mass and dimensions compared with the known and, as a consequence, lower consumption of active materials and cost. Claim 1. A DC electric power source containing a t-phase 2p-pole electric generator, a bridge rectifier and a pulsation suppressor of rectified voltage, characterized in that, in order to reduce the weight and size, the pulsation suppressor is designed as an additional electric machine with 4pm -polar inductor mounted on the generator shaft, and a single-phase, ring winding connected in series to the output bridge rectifier circuit. 2. The direct current source according to claim 1, which implies that the single-phase annular winding of the additional machine is made of two branches connected in parallel and shifted relative to each other by a spatial angle equal to. Sources of information taken into account during the examination 1. A. Bertinov. and Lototsky V.L. Contactless DC electric machines. M., Informelectro, 1967, p. 8-15. 2. Tsukublin A.B. Development and research of a contactless DC generator, author. dis., Tomsk, 1968. f | : Figure 1 I

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Claims (2)

Claim 1 . A DC machine-type DC source containing a t-phase 2p-pole electric generator, a bridge rectifier and a ripple voltage limiter, characterized in that, in order to reduce weight and dimensions, the ripple limiter is made in the form of an additional electric machine with a 4-pole inductor, mounted on the generator shaft, and a single-phase, ring winding connected in series to the output circuit of the bridge rectifier. '2. DC source π. 1, characterized in that the single phase annular winding of the additional machine is made of two branches connected in parallel and shifted relative to each other by a spatial angle equal to J7 / 2pm.