RU2142667C1 - Stator of electrical machine - Google Patents

Abstract

FIELD: electrical engineering, in particular, cooling systems of closed-design electrical machines to be used in power production, tool making and instrument making equipment, and agriculture. SUBSTANCE: device has finned cylindrical housing, core, pouring stator winding 5 with front members, cooling members with axial cuts, each of which has cylinder which is located between housing and front members of winding, and disk which is mounted in radial direction and covers front winding members from ends. Goal of invention is achieved by design of cooling members disks, which are removable, and by design of cooling members, each of which is equipped with four Peltier elements, which are connected to external direct current power supply, and are arranged in pairs on external surface of cylinder in relatively perpendicular planes. In addition one surface of each Peltier element is adjacent to cylinder of cooling member, while another radial disk increases heat-emitting surface of each cooling member in axial direction as well as balances temperature inside cooling member of stator winding. EFFECT: increased efficiency of stator winding cooling with respect to passive cooling systems, increased reliability of operations, longer service life of electric motor, at least by factor of two-three, automatic control of heating mass-production induction motors for industry and agriculture. 3 dwg

Description

 The invention relates to closed-circuit electric machines, in particular to their cooling systems, and can be used in the electrical, energy, engineering, instrument-making industry and in agriculture.

 A closed-type electric machine is known, comprising a housing, a magnetic circuit, stator windings with frontal parts, a heat-insulating embedded element located between the housing and frontal parts, and a shell covering the frontal parts, filled with a heat-conducting material including a binder and a filler, wherein the embedded heat-conducting element has the form of a hollow rings filled with granules of metal, for example aluminum, which together with the shell is made in a single unit from an electrical insulating mesh, in particular from a fiberglass mesh filled with cured mass along with the frontal parts of the winding (see AS USSR N 851652 Electric Machine, MKI 3: H 02 K 3/50, H 02 K 9/22, decl. 02.11.79, publ. . 07.30.81).

 A disadvantage of the known electric machine is the insufficiently high efficiency of cooling the stator winding with the help of an embedded heat-conducting element from a fiberglass mesh in the form of a hollow ring filled with aluminum granules, which, together with a shell from a fiberglass mesh covering the frontal parts of the stator winding, is filled with a cured impregnating compound with fine filler, so how this cooler does not provide full equalization of the temperature of the stator winding in the axial direction for different modes ah operation of the electrical machine. In addition, such a cooler is quite difficult to manufacture and cannot be reused after repair of an electric machine.

 The closest in technical essence to the claimed stator of an electric machine and selected as a prototype is a stator of a closed-type electric machine containing a housing, a core in which loose windings with frontal parts having a straight section are laid, cooling elements with axial slots, each of which has a cylindrical section located between the body and the frontal parts, radially mounted, covering the frontal parts of the winding from the ends of the disk adjacent to the teeth of the core teeth located between the frontal parts of the winding coils, and the teeth of the cooling element have a length equal to the length of the straight section of the frontal parts, and axial slots are located through three tooth divisions of the cooling element (see. S. USSR N 1046851 "Stator of an electric machine", MKI 3: H 02 K 9/22, claimed 10.09.80, publ. 07.10.83).

 A disadvantage of the known stator of a closed-type electric machine is the insufficiently high reliability and cooling efficiency of the stator winding using two cooling elements with axial slots, each of which has a cylindrical section located between the housing and the frontal parts of the winding and a radially mounted disk with teeth adjacent to the teeth of the core and located between the frontal parts of the winding, since these cooling elements do not provide complete temperature equalization stator windings in the axial direction, especially under conditions of abruptly alternating load of an electric machine, in frequent start-up modes, in modes with variable speed, i.e. with non-stationary modes of heating the stator winding.

 The presence of a radially mounted disk with teeth complicates the process of laying the stator winding and does not allow the use of this cooler for an engine with a wound stator winding, which limits its scope. When repairing an electric motor with a known cooler, in particular when removing the stator winding, it is practically impossible to keep the cooler intact, while the radially mounted disk with teeth is damaged. The one-time use of the known cooler leads to a decrease in the efficiency of its use during operation.

 The objectives of the invention are to increase the cooling efficiency and reliability of the stator winding by creating controlled cooling of the stator winding.

 The goals are achieved by the fact that in the stator of a closed-circuit electric machine containing a housing, a core in which loose windings with frontal parts are placed, cooling elements with axial slots, each of which has a cylinder located between the housing and frontal parts of the winding, and radially mounted a disk covering the frontal parts of the winding from the ends. According to the invention, the radially mounted disks of the two cooling elements are removable, and each cooling element is equipped with four Peltier elements located pairwise on the outer surface of the cylinder in mutually perpendicular planes, with each Peltier element adjoining one surface to the cylinder of the cooling element and the other surface to the body.

 The implementation of the radially mounted disks of the two cooling elements removable allows free access to the Peltier elements located on the outer surface of the cylinders of the cooling elements, in order to install or replace them in case of failure, thus ensuring reliable operation and cooling efficiency of the stator winding during it operation.

 Equipping each cooling element with four Peltier elements connected to the corresponding terminals of the direct current source and arranged in pairs on the outer surface of the aluminum cylinder having high thermal conductivity, in mutually perpendicular planes and adjoining one of their “cold” surfaces to the aluminum cylinder and the other to the “hot” surface to the finned body, allows you to create a zone of low temperature and heat pressure around the frontal parts of the winding due to the higher different temperature between the frontal parts of the winding and the surface of the cooling element. This improves the cooling efficiency of the winding, equalizes the temperature of the stator winding in the axial direction and maintains it at a predetermined level in all modes of operation of the electric machine, which increases the reliability of the stator winding.

 Thus, the proposed stator of an electric machine, differing from the prototype by new significant features ensuring the industrial applicability of the proposed stator, meets the criteria of the invention, such as "novelty" and "industrial applicability" in comparison with the prototype.

 To prove the novelty and inventive step of the proposed stator of a closed-circuit electric machine, the applicant conducted a search for patent and scientific and technical information on the funds of the Chelyabinsk Center for Scientific and Technical Information, the Chelyabinsk Regional Universal Scientific Library and the Uralpatent Center.

 As a result of the search for patent and scientific and technical information, the applicant did not identify technical solutions that possessed a set of new essential features similar to the proposed stator of an electric closed-door machine, therefore, the proposed stator meets the criteria of the invention "inventive step".

 The technical essence of the proposed stator of an electric machine closed design is illustrated by drawings.

 In FIG. 1 shows a longitudinal section of the proposed stator; figure 2 is a frontal projection of the cooling element; figure 3 is a profile projection of the cooling element.

 The proposed stator of a closed-type electric machine contains a finned cylindrical body 1 made of aluminum, bearing shields 2 and 3 made of aluminum, a core 4 made in the form of a package of sheets of electrical steel, a loose stator winding 5 with frontal parts 6 and 7, two aluminum cooling elements (on not shown), each of which is located near the corresponding frontal part 6 or 7 of the winding 5 (see Fig. 1). The left cooling element (not shown in the drawing) contains a radially mounted disk 8 with an axial hole 9 and a cylinder 10 with axial slots 11, 12, 13, 14. On the outer surface of the cylinder 10, Peltier elements 15, 16, 17, 18 are installed in the grooves located in pairs in mutually perpendicular planes (see Fig. 2 and 3). The right cooling element (not shown in the drawing) contains a radially mounted disk 19 with an axial hole 20 and a cylinder 21 with axial slots 22, 23, 24, 25. On the outer surface of the cylinder 21, Peltier elements 26, 27, 28, 29 are installed in the grooves located in pairs in mutually perpendicular planes. Each Peltier element 15, 16, 17, 18, or 26, 27, 28, 29 adjoins one surface to the corresponding cylinder 10 or 21, and the other surface to the housing 1. Axial slots 11, 12, 13, 14 or 22, 23, 24, 25, made in the respective cylinders 10 or 21, serve to reduce eddy current losses. To facilitate the installation of cooling elements in the stator of an electric machine, radially mounted disks 8 and 19 are attached to the respective cylinders 10 and 21 mechanically.

 Radially mounted disks 8 and 19 serve to increase the heat transfer surface of the cooling elements in the axial direction, as well as to equalize the temperature in the volume of cooling elements of the stator winding 5.

The operation of the stator of an electric machine with active cooling elements is as follows:
Peltier elements 15, 16, 17, 18, 26, 27, 28, 29 are connected to the corresponding terminals of an external DC source (not shown in the drawing).

 Peltier elements 15, 16, 17, 18, 26, 27, 28, 29 are connected to an external direct current source (not shown) with such polarity that the surface of the Peltier elements facing the frontal parts 6 and 7 of the stator winding 5 is cooled. When adjusting the magnitude of the current supplying each Peltier element 15, 16, 17, 18, 26, 27, 28, 29, the cooling rate of this surface of the Peltier elements also changes. Aluminum cylinders 10 and 21 and radially mounted disks 8 and 19, having low thermal inertia, equalize the temperature, forming an inner surface with a reduced temperature, facing the outer surface of the frontal parts 6 and 7 of the stator winding 5. Thus, a significant, adjustable thermal difference is created between the inner surface of the cooling elements and the outer surface of the frontal parts 6 and 7 of the stator winding 5.

 Thus, a “heat pump” is created in the internal volume of the electric machine, pumping heat with a given capacity.

 Another "hot" surface of the Peltier elements 15, 16, 17, 18, 26, 27, 28, 29 is adjacent to the surface of the finned body 1 made of aluminum, which is a radiator for cooling Peltier elements. Heat is removed from the surface of the finned body 1 by an external blower of an electric machine (not shown in the drawing).

 The use of this device for active cooling of the stator winding 5 of an induction motor allows, in addition to general control of the temperature of the motor winding 5, to make this temperature almost the same over the entire surface of the winding in the axial direction and to maintain it at a given level in all engine operation modes. This is fundamentally important for developers of the electric drive, checking the engine for the average temperature of the stator winding of the motor, since the difference between the average and maximum temperature of the winding and the error in choosing the power of the motor disappears.

 The use of this device for active cooling of the stator winding 5 allows to increase the cooling efficiency of the winding 5 in comparison with passive cooling devices, to increase the reliability of the stator winding 5, to extend the service life of the motor by at least 2-3 times.

 Using the proposed stator with an active cooling device of the stator winding 5 allows you to automate the control of the heating process of asynchronous motors of closed execution of mass series in industry and agriculture.

Claims (1)

 The stator of a closed-type electric machine, comprising a housing, a core in which loose windings with frontal parts are laid, cooling elements with axial slots, each of which has a cylinder located between the housing and frontal parts of the winding, and a radially mounted disk covering the frontal parts of the winding with ends, characterized in that the radially mounted disks of the two cooling elements are removable, and each cooling element is equipped with four Peltier elements connected to the external a direct current source located in pairs on the outer surface of the cylinder in mutually perpendicular planes, with each Peltier element adjoining one surface to the cylinder of the cooling element, and the other surface to the body.

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