RU2382457C1 - Device for transmission of electric energy from fixed unit to rotary part - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention is related to the field of electric engineering, in particular to devices for continuous current pickup and distribution of electric energy, and may be used to transmit electric energy in antiicing systems of aircraft rotary blades. Power current collector comprises contact pairs of rings and brushes for transmission of electric energy from external source to current collectors arranged on rotary part and for grounding. Additional current collector comprises contact pairs of rings and brushes for transmission of electric control signals from control system to commutators. Contact rings are insulated from each other and installed on bush made of dielectric and fixed on immovable axis. Each current pickup brush, which contacts with according ring of power current collector, is connected parallel with all commutators, number of which is equal to number of parallel switched current collector groups. Protective cap installed over end surface insulates switched current collectors and commutators againt outdoor environment. On periphery of end surface there are sockets arranged with electric slots for connection of current collectors. Electrically controlled commutators that commute lines of electric energy transmission from power current pickup to independent current collectors are fixed and balanced on end surface inverted towards current collectors. Spring-loaded current collector brushes are with tangential direction towards contact rings of current collectors, besides, with contact end towards sliding direction along contact ring. Contact pairs of power current collector and common electricity cable of additional current collector include at least two current-collector brushes, which are installed at diametrically opposite sides of contact rings as connected by links between each other. Contact pairs of additional current collector comprises one current collector brush each, which are installed in turns on diametrically opposite sides of contact rings as they are arranged along their common axis of current collectors.

EFFECT: simplified design and expanded functional resources, device comprises power and additional current collectors.

8 cl, 5 dwg

Description

The invention relates to the field of electrical engineering, in particular to devices for continuous current collection and distribution of electrical energy, and can be used to transfer electrical energy from a fixed unit to a rotating part of an object, for example, in anti-icing systems of rotating blades of aircraft.

A device is known for transmitting electrical energy from a fixed unit to a rotating part, comprising a current collector with two communication channels and a switch of registered channels located on a common sleeve. The switch has a separator with a micro switch, which is made in the form of a disk. Microswitches are combined in three groups and are installed on the same diameter at equal intervals on the end surface of the separator facing the current collector (USSR author's certificate No. 769670. Current-collecting device. - IPC ³ : Н01R 39/64. - Bull. No. 37, 07.10.80 ) A disadvantage of the known device is its limited application, which can be used, in particular, for the transmission and switching of registered communication channels from a thermocouple and strain gauge. Synchronous inclusion of all microswitches of the same group is carried out by the heel, which, together with the locking ball, lifted bolt and spring nut, is enclosed in a housing, which together comprise a switching device.

A device is known for transmitting electric energy from a fixed unit to a rotating part, comprising a housing, a main and additional current collectors mounted on one axis, including contact rings isolated from each other and contact spring-loaded brushes evenly mounted around each of them (USSR copyright certificate No. 813567. Device for transmitting electric energy from a fixed part to a rotating one. - IPC ³ : Н01R 39/64. - Bull. No. 10, 03/15/81). This device is taken as a prototype.

A disadvantage of the known device adopted for the prototype is the complexity of the design and the limitations of its use. This is due to the fact that the contact rings of the main current collector consist of conductive segments isolated from each other, the length and placement of which exclude the location of two brushes on one of them at any time. The additional current collector is made in the form of an insulating disk with one continuous and several segmented contact rings concentrically located on the end face thereof and includes traverses carrying two brushes, connected by jumpers, one of which is adjacent to the continuous ring.

The main objective of the proposed technical solution is the ability to control the transfer of electrical energy from a fixed unit to the rotating part to the current collectors, depending on changes in parameters that affect their connection, determined outside the device.

The technical result achieved by the proposed technical solution is to simplify the design and expand the functionality.

The specified technical result is achieved by the fact that, in the known device for transmitting electrical energy from a fixed unit to a rotating part, comprising a housing, a power and additional current collectors, which include contact pairs of current collector brushes, movably mounted in brush holder cartridges and isolated from each other contact rings, the latter are mounted on a common axis, and switches that make switching wires for transmitting electrical energy from a power collector to an independent current collector to receivers that are mounted balanced on the end surface facing the current collector, according to the proposed technical solution,

the switches are made with electric control drives, for which the contact rings of the additional current collector are connected to the transmission lines of control electric signals, and the current collector brushes in contact with them are connected to the control drives of these switches, with each brush in contact with the corresponding ring of the current collector connected in parallel with all switches, the number of which is equal to the number of groups of parallel-connected current collectors;

the power current collector is equipped with an additional contact pair for grounding the rotating part with a fixed unit;

the number of contact pairs of the additional current collector is greater than the number of switches by at least one contact pair, the current collector brush of which is parallelly connected by a common electric wire to the control drives of all switches;

current collection brushes of the power collector and the common electric wire of the additional current collector are installed on at least two diametrically opposite sides of the contact rings, connected by a jumper;

current collection brushes are installed with a tangential direction to the contact rings of the current collectors, with the contact end in the sliding direction along the contact ring;

in an additional current collector, each contact pair contains one current collector brush, each of which is located on the diametrically opposite sides of the contact rings in turn as the contact pairs are located along the axis of the current collector;

a protective cap is installed above the end surface, isolating the switched current collectors and switches from the external environment;

at the periphery of the end surface, sockets with electrical connectors for connecting current collectors are made.

Figure 1 shows a General view of the proposed device in section; figure 2 is the same, a top view (cap conventionally not shown); figure 3 is a section aa in figure 1; figure 4 is a section bB in figure 1; figure 5 - section bb in figure 1.

A device for transmitting electric energy from a fixed unit to a rotating part contains a power collector 1 and an additional current collector 2. Power collector 1 includes contact pairs consisting of rings 3 and collector brushes 4 for transmitting electric energy from an external current source to current collectors associated with the rotating part of the device, as well as the ring 5 and the collector brushes 6 for grounding the rotating part with a fixed unit of the device. The number of pairs of slip rings and current collection brushes of the power collector 1 is equal to the number of conductors transmitting power electric energy, including the ground line. (Figure 1). Additional current collector 2 also includes contact pairs consisting of rings 7 and current collector brushes 8 for transmitting electrical control signals from the control system to electrically controlled switches 9. The number of pairs of contact rings 7 and current collector brushes 8 of additional current collector 2 is equal to the number of control conductors signals to the control drives of the switches 9, including the second common electrical wire. The contact rings 3, 5 and 7 are placed isolated from each other on a sleeve 10 made of a dielectric and mounted on a fixed axis 11, which are connected to an external source of electrical energy through wires passing through the cavity of the fixed axis 11. Current collector brushes 4, 6 and 8 placed in the brush holders of the cartridge sleeve 12 mounted with the end surface 13 on the housing 14 of the rotating part of the device. Each current collection brush 4 in contact with the corresponding ring 3 of the power current collector 1 is connected in parallel with all switches 9, the number of which is equal to the number of groups of parallel connected current collectors. Above the end surface 13, a protective cap 15 is installed that isolates the switched current collectors 1 and 2 and the switches 9 from the external environment. At the periphery of the end surface 13, sockets 16 with electrical connectors for connecting current collectors are made. The electrically-controlled switches 9, which make the switching of electric energy transmission lines from the power collector to independent current collectors, are fixed and balanced on the end surface 13 facing the current collectors 1 and 2 (Fig. 2). Spring-loaded current collection brushes 4, 6 and 8 are installed with a tangential direction to the contact rings 3, 5 and 7, respectively, of the current collectors 1 and 2, with the contact end in the sliding direction along the contact ring. (Figure 3). Contact pairs of the power current collector 1 and the common electric wire of the additional current collector 2 include at least two current collector brushes mounted on the diametrically opposite sides of the contact rings, interconnected by jumpers 17. (Figure 4). The contact pairs of the additional current collector 2 contain one current collector brush 8, which are installed alternately on the diametrically opposite sides of the contact rings 7 as they are located along the common axis of the current collector 2. (Figure 5).

The device operates as follows.

Each contact pair of the power collector 1 through the contact rings 3 and the collector brushes 4 commutates one phase of a three-phase alternating current generated by an external electric power generator, with the switches 9 rotating together with the end surface 13, the latter periodically connecting simultaneously three phases of the alternating current to independent rotating current collectors one group, interconnected, for example, by a star. The contact pair of the power collector 1 through the contact ring 5 and the collector brushes 6 performs the function of grounding the rotating part with a fixed node. Each contact pair of the additional current collector 2 commutates the transmission lines of control electric signals from the external control unit to three-phase switches 9, which, in turn, include power to the current collector groups from the power current collector 1 at the right time through wires connecting the electrical connectors in sockets 16 for connecting the current collectors .

Claims (8)

1. A device for transmitting electrical energy from a fixed unit to a rotating part containing a housing, a power and additional current collectors, which include contact pairs of current collector brushes, movably mounted in brush holder cartridges, and contact rings isolated from each other, the latter are mounted on a common axes, and switches, switching wires for transmitting electric energy from a power collector to independent current collectors, which are installed balanced on the reverse the current collector of the end surface, characterized in that the switches are made with electric control drives, for which the contact rings of the additional current collector are connected to the transmission lines of the control electric signals, and the contact collector brushes connected to the control drives of these switches, each brush in contact with the corresponding power collector ring, connected in parallel with all switches, the number of which is equal to the number of groups of parallel-switched t kopriemnikov. 2. The device according to claim 1, characterized in that the power collector is equipped with an additional contact pair for grounding the rotating part with a fixed node. 3. The device according to claim 1, characterized in that the number of contact pairs of the additional current collector is greater than the number of switches by at least one contact pair, the current collector brush of which is parallelly connected by a common electric wire to the control drives of all switches. 4. The device according to claim 2 or 3, characterized in that the collector brushes of the power current collector and the common electric wire of the additional current collector are installed on at least two diametrically opposite sides of the contact rings, connected by a jumper. 5. The device according to claim 1, characterized in that the collector brushes are installed with a tangential direction to the contact rings of the current collectors, with the contact end in the sliding direction along the contact ring. 6. The device according to claim 1, characterized in that in the additional current collector each contact pair contains one current collector brush, each of which is located on the diametrically opposite sides of the contact rings in turn as the contact pairs are located along the axis of the current collector. 7. The device according to claim 1, characterized in that a protective cap is installed above the end surface that isolates the switched current collectors and switches from the external environment. 8. The device according to claim 1, characterized in that on the periphery of the end surface there are sockets with electrical connectors for connecting current collectors.

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