RU2752651C1 - Sliding current collector unit - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to the field of electrical engineering, in particular to collector electric machines of direct and alternating current of general industrial and aviation design, and can be used for accelerated guidance of copper-oxide surface films on collectors of electric machines of direct and alternating current. The technical result is the elimination of the unevenness of current distribution along the parallel-running spring-loaded current-removing brushes of the sliding current-removing units in multi-brush systems by installing additional non-conductive brushes made of a chemically active catalyst, vanadium anhydride with a binder with an acceptable heating temperature of more than 400°C, not participating in current transfer and made in the form of briquettes accelerating the process of formation of a varnish film with standard spring-loaded current collecting brushes. Additional non-conductive brushes contribute to the formation of a uniform and dense film (varnish) on the contact rings, the collector, and also reduce the wear of the friction elements and their temperature by reducing the coefficient of friction.EFFECT: elimination of the unevenness of current distribution along the parallel-running spring-loaded current-removing brushes.1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, in particular to collector electric machines for direct and alternating current of general industrial and aviation design, and can be used for accelerated guidance of copper oxide surface films on the collectors of AC and DC electric machines.

An analysis of the operation of multi-brush current collection systems shows that the current load on parallel operating electric brushes in some cases has significant unevenness [KK Bezchastnov, NN Prokopenko, AV Startsev. Comparative analysis of the conditions of operation of brush-contact devices of turbine generators of the state district power station // Energetik. - 2012. No. 7. S. 2-6]. This phenomenon leads to overloading of individual electric brushes, their heating, a decrease in the resistance of the brush body and a further increase in their current load. The process will last until all the current begins to pass practically through one or more brushes, which ultimately will lead to their unacceptable heating and splitting [and others] Society, science, innovation. (NPK - 2014) [Electronic resource]: Vseros. yearly. scientific-practical Conf .: Sat. materials, April 15-26, 2014 / Vyat. state un-t. - Kirov, 2014 .-- 1 electron. wholesale disc (CD-ROM). - (Faculty of Electrical Engineering (ETF). Section "Electromechanics". Article No. 3)].

It is known [Livshits P.S. Sliding contact of electrical machines - M. Energiya, 1974. - 321 p.] That the current distribution between the parallel operating spring-loaded current-collecting brushes is influenced by the transition resistance between the terminal and the brush leader, the contact resistance between the brush terminal and the brush holder traverse, the resistance between the leader and the body brushes, the resistance of the carbon material (brush body), the resistance of the transition layer of the contact brush-slip ring (collector) (the resistance of the transition layer, in turn, is determined by the resistance of the polish film).

In the presence of a normal polish film, as studies show [Neukirchen I. M.-L. ONTI, 1937. - 183 S.], the resistance of the brush-collector transition is up to 100 times higher than the total value of the other previously listed components that affect the current distribution. And, therefore, the non-uniformity of the current distribution between the parallel working brushes will be determined in this case by the resistance of the polish film, which depends on the actual arc of contact (the contact arc of the spring-loaded collector brush - slip ring, collector), which differs significantly from the apparent (theoretical) and during operation under normal pressure undergoes a significant change (up to 1000 times) [Deeva VS, Slobodyan MS, Slobodyan SM. "Vitality" of the brush contact of electrical machines // Electricity. 2013. No. 04. S. 45-49]. Stabilization of the contact arc can be achieved by increasing the pressure on the spring-loaded pick-up brushes. However, in some cases, this can lead to a shift in the process of formation and abrasion of the polish film towards its abrasion, up to complete disappearance.

The reliability of these electric machines, which include a sliding current collection unit (SLU), depends on the wear rate of collectors and current-carrying brushes, which is determined by the presence of a surface polish film. The polish film acts as a lubricant for the contacting surfaces of stationary electric brushes and a collector, as well as a protective cover film with a transient resistance, for a stable electrical transfer.

The presence of a normal polish film, as research shows [Neykirikhen I. M.-L.ONTI, 1937.-183s.] Means that the resistance of the transition of the film is the most significant resistance of all possible resistances standing in the path of current flow from the traverse to the collector metal. According to the technological regulations [GOST R 51667-2000. Electric machine brushes. Methods for determining the collector characteristics] there is a certain mode of its guidance, which consists in a sufficiently long operating time, sometimes reaching a duration of 5 hours or more.

In addition, in the absence of an oxidizing atmosphere, most often in the high-altitude oxide component of the polish film may not form, due to the low oxygen content, which inevitably leads to severe wear of the collector brushes and the collector surface due to the high coefficient of sliding friction along the juvenile (pure ) metal. Also, under the conditions of the salt atmosphere of the marine climate, due to the depassivating action of sulfate and hallogenic ions, the destruction of the protective oxide component of the film and a further increase in wear can occur.

The closest in technical essence to the achieved result is a sliding current collection unit containing standard brush holders, spring-loaded current collectors and additional brushes, made composite in the form of contact and carrier parts, the contact part of the additional brush is made of molybdenum disulfide with a binder, slip rings, additional brush holders are introduced for additional brushes, which can be combined into a single brush holder with a current carrying one, and an additional brush, spring-loaded with a spiral spring, has a tangential length equal to the tangential length of the additional brush holder window. The technical result of the proposed model is the alignment of the current distribution between the parallel working brushes by increasing the contact resistance of the rubbing surfaces, as well as reducing the wear of the rubbing surfaces by reducing the friction coefficient [Sliding current collection unit (options): US Pat. 112513 Russian Federation, IPC H 01 R 39/00 / A.I. Izotov. No. 2011120198/07; app. 05/19/2011; publ. 10.01.2012, Bul. # 1. 2 s.].

A disadvantage considered analog, limiting its application, is the impossibility of its use in the case where in the contact zone temperatures busbar brush ring exceeds 400 ^{° C,} wherein the molybdenum disulfide enters oxide having abrasive properties, increasing wear of electrical brushes and rings (collector) [Fominykh A.A., Izotov A.I. and others. Evaluation of the effectiveness of the use of lubricating brushes on the rings of a turbogenerator // Energetik. 2015. No. 3. S. 12 - 15].

The technical result of the invention is to improve the formation of a polish film, as well as to eliminate the unevenness of the current distribution along the parallel operating spring-loaded current-collecting brushes of sliding current collection units in multi-brush systems.

The technical result is achieved by the fact that additional non-conductive brushes made of a reactive catalyst - vanadium anhydride with a binder with a permissible heating temperature of more than 400 ° C, are introduced into the sliding current collection unit containing brush holders, spring-loaded current collector and additional brushes, slip rings. current transmission and made in the form of briquettes, accelerating the process of formation of a polish film with standard spring-loaded current-collecting brushes.

Briquettes are preliminarily made by sintering a molded mixture of anhydride with a binder - bakelite varnish in a mold, and then installed in at least one brush holder on the working current-collecting track.

Additional non-conductive brushes contribute to the formation of a uniform and dense film (polish) on slip rings, collector, and also reduce wear of friction elements and their temperature by reducing the coefficient of friction.

The device works as follows. As the slip ring rotates, the contact part of the additional brush constantly lubricates the surface of the ring. A polishing film forms on the ring surface, which increases the resistance of the spring-loaded current-collecting brush - ring transition. This makes it possible to reduce the unevenness of the current distribution along the parallel operating spring-loaded current-collecting brushes, to reduce the wear of the friction elements and their temperature by reducing the coefficient of friction.

A view of the sliding current collection unit of the collector of an electric machine with standard and additional brushes is shown in the Figure, where 1 is a standard brush; 2 - additional brush; 3 - spring of brush holders; 4 - brush holder; 5 - collector.

The assembly sequence of the assembly is as follows: removing one collector brush from each track from the brush holder; installation of vanadium anhydride briquettes in the nests of the brush holders; pressing them to the collector by the springs of the brush holder; bringing the collector into forced rotation.

The specific pressure on the current-carrying brushes and briquettes of vanadium anhydride of the brush was 450 g / cm ² . The collector was rotated at a frequency of 8000 rpm.

The oxidative reaction with the formation of oxide-ferrous copper can proceed spontaneously with a negative value of Gibbs free energy, the value of which is equal to ΔG = ΔH - TΔS, where ΔH is the difference between the enthalpies of the products and the initial substances of the reaction; ΔS is the difference between the entropies of the products and the initial substances of the reaction; T is the process temperature. The calculated values of the Gibbs energy of the oxidation reaction of copper with vanadium anhydride in the temperature range from 20 to 400 ° C have negative values. An increase in temperature in the contact zone is possible due to dissipation (dissipation) of heat from surface friction between the briquette of solid oxidant vanadium anhydride and the track of the rotating collector. The formation of a polish film under natural conditions when the generator was operating in a normal mode made it possible to achieve a resistance of 0.2 Ohm within 5 hours. Before the start of the tests, the polish film was removed with a glass cloth (the initial state of the polish film is 0.002 Ohm). Checking the thermodynamic probability of a solid-phase reaction with a vanadium anhydride briquette by the proposed method showed that under the same operating conditions of the generators, the thickness of the oxide film after 5 hours was R = 0.8 Ohm A1 H01R 39/56 Authors Izotov A.I. and etc]

The use of vanadium anhydride in the form of briquettes to accelerate the induction of a protective oxide film increases the manufacturability of the method, preserves both the reliability of the brush-collector unit in a rarefied atmosphere and in conditions with an aggressive depassivation atmospheric due to the accelerated formation of a polish film.

Claims (1)

Sliding current collection unit containing brush holders, spring-loaded current collectors and additional brushes made in the form of contact and bearing parts, slip rings, characterized in that additional brushes installed between the current electric brushes on each contact track are made of vanadium anhydride and bakelite varnish.

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