RU106461U1 - ELECTROMAGNETIC COUPLING REDUCER WITH SEALING SCREEN - Google Patents

Abstract

 1. An electromagnetic clutch-reducer with a sealing screen, containing a driving link connected to the drive mechanism shaft, including an electromagnet with an excitation winding and slip rings with sliding current leads, a fixed screen in the form of a housing made of insulating material with built-in ferromagnetic elements having an external and internal cylindrical cavity , in the first of which is the leading link, and in the second - the driven link in the form of a ferromagnetic armature with teeth in the axial direction, designed For communication with the actuator shaft, characterized in that the electromagnet of the driving link is made in the form of a ferromagnetic magnetic circuit with at least one pair of poles located along the axis of the driving link or at an angle to it and facing the cylindrical surface of the fixed screen in the external cavity, between the poles of the magnetic circuit there are field winding coils connected to each other and to the contact rings so that when the electric current flows, alternating polarities of the poles of the electric ctromagnet, built-in ferromagnetic elements of the fixed screen are made in the form of bundles of thin rods or in the form of plates and are located inside the insulating material of the screen housing so that the longitudinal axis of the strips formed by the built-in elements when they exit the surface of the screen in the internal and external cavities and facing the poles of the lead and the teeth of the driven links, are located in the direction along the poles and teeth or at an angle to them. ! 2. The clutch gearbox according to claim 1, characterized in that the field winding coils are sized

Description

The utility model relates to electrical engineering, in particular, to devices that joint shafts with a tight separation of the cavities of the driving and driven mechanisms and transmitting rotation with a gear ratio greater than, less than or equal to unity.

A variety of synchronous and geared magnetic and electromagnetic mechanisms with a sealing screen are known, in the designs of which a sealing metal or non-metallic screen is made of small thickness, commensurate with the gap in the electromagnetic system of the mechanism, and increasing the thickness of the screen leads to an increase in the equivalent gap and, thereby, to a decrease in efficiency torque transmission (see, for example, Ganzburg LB, Fedotov AI Design of electromagnetic and magnetic mechanisms. Reference book. L ., Engineering, 1980).

A common disadvantage of the known devices are the limitations introduced by the thin-walled design of the sealing screens, associated either with their strength or with large power losses.

The closest in technical essence to the proposed utility model is a non-contact magnetic gearbox containing a driving link with a screw thread facing a fixed screen made in the form of a glass made of insulating material with ferromagnetic elements, a gear driven link located concentrically to the fixed screen, while the ferromagnetic element made in the form of a polyhedron with a helical generatrix and bases in the form of parallelograms, with the base facing the leading a vein, is rotated relative to the base facing the driven link, at an angle less than 90 °, along the axis of the gearbox there are several ferromagnetic elements isolated from each other, forming a tooth on one side and a helical surface facing the driving link on the other. The implementation of a non-conductive screen with reinforced elements of the magnetic circuit basically allows you to increase the wall thickness to values that ensure structural strength and minimize power loss in the screen (see the description of the invention to the copyright certificate SU No. 1406698 of 12.30.1986).

The disadvantage of this device is the technological complexity of the screen.

The objective of the utility model is to create a non-contact torque transmission device with a reduction in rotational speed from the drive mechanism shaft to the actuator shaft with hermetic separation of the cavities of the master and driven mechanisms for large rotary machines, for example, large-capacity centrifugal compressor units.

The problem is solved in that the electromagnetic clutch gearbox with a sealing screen contains a drive link connected to the drive mechanism shaft, including an electromagnet with an excitation winding and slip rings with sliding current leads, a fixed screen in the form of a housing made of electrical insulation material with built-in ferromagnetic elements, having an external and inner cylindrical cavities, in the first of which is the leading link, and in the second - the driven link in the form of a ferromagnetic armature with teeth in the axle ohm direction, designed to communicate with the shaft of the actuator, the electromagnet of the driving link is made in the form of a ferromagnetic magnetic circuit with at least one pair of poles located along the axis of the driving link or at an angle to it and facing the cylindrical surface of the fixed screen in the external cavity, between the poles of the magnetic circuit there are field winding coils connected to each other and to the contact rings so that when the electric current flows, alternating field of the poles of the electromagnet, the built-in ferromagnetic elements of the fixed screen are made in the form of bundles of thin rods or in the form of plates and are located inside the insulating material of the screen housing so that the longitudinal axis of the strips formed by the built-in elements when they exit the surface of the screen in the internal and external cavities and facing the poles of the lead and the teeth of the driven links are located in the direction along the poles and teeth or at an angle to them.

In addition, the field winding coils are placed between the poles of the magnetic circuit in the corresponding grooves.

The utility model is illustrated by drawings, where Fig. 1 shows the construction of an electromagnetic clutch gearbox with a sealing screen; figure 2 is a section aa in figure 1; figure 3 - section bb and CC in figure 1; figure 4 is a variant of the layout of the ferromagnetic plates in the body of the stator for the multiplier with a twofold increase in speed from the leading link to the driven link; figure 5 - loop circuit of the magnetic flux of the electromagnet and the forces acting on the movable elements of the clutch-gear during transmission of rotation.

Presented in figure 1 - figure 3, the design of the clutch gearbox corresponds to the option of the multiplier with a twofold increase in speed.

An electromagnetic clutch gearbox with a sealing screen contains a drive shaft 1 of slow rotation, a drive link connected to it, including a multi-pole electromagnet, made in the form of a ferromagnetic magnetic circuit 2 with two pairs of distinct poles, made, for example, in the form of teeth, between which in corresponding grooves (not shown) placed the coil winding 3 of the excitation connected to each other and located on the drive shaft 1 of the drive mechanism of the contact rings 4 by means of current leads 5 made a sliding-contact brushes. The connection of the field windings 3 with each other and with the contact rings 4 is carried out in such a way that when the electric current flows, alternating polarities of the poles of the magnetic circuit 2 are provided.

The electromagnetic clutch gearbox contains a fixed screen 6 (stator), which is a body made of electrical insulation material with built-in ferromagnetic elements made in the form of bundles of thin rods or in the form of plates 7. The clutch gearbox also contains a driven link made in the form of a ferromagnetic armature 8 placed on the driven shaft 9 of rapid rotation, having two straight or helical, or axially oblique teeth (not shown). The number and length of teeth depends on the coefficient of reduction (multiplication) of the rotation frequency of the clutch gearbox, as well as the number and length of the poles of the driving link. The screen 6 has an external and internal cylindrical cavity, which serve to accommodate the elements of the leading and driven links, respectively. The poles of the magnetic circuit 2 are facing the cylindrical surface of the screen 6 in its outer cavity and are located along its generatrix or at an angle to it. The ferromagnetic plates 7 are located inside the insulating material of the screen housing 6 so that the longitudinal axis of the strips formed by the plates 7 embedded in the screen 6 when they exit onto the surface of the screen 6 in its inner and outer cavities facing the poles of the lead and the teeth of the driven links are located along the direction poles of the driving link and teeth of the driven link or at a slight angle to them. In this case, the arrangement of the plates 7 depends on the design of the elements of the driving and driven links and the necessary reduction coefficient (multiplication) of the rotation frequency of the clutch gearbox.

Built-in ferromagnetic plates 7 of the screen 6 (stator) perform the distribution function of the magnetic flux generated by the excitation winding 3 of the driving link. In order to increase the efficiency of the clutch gearbox, the gaps between the magnetic circuit 2, the teeth of the armature 8 and the cylindrical surfaces of the corresponding cavities of the screen 6 should be minimal.

Figure 4 shows a variant of the layout of the embedded plates 7 for the multiplier under consideration. Two groups of plates 7 can be distinguished, each of which forms two layers embedded in each other, and in each layer, the built-in plates 7 are laid so that zones of minimum magnetic resistance are successively alternating in angular position for the corresponding fixed positions of the driving and driven links relative to the screen 6 The angular position of the poles of the lead and teeth of the driven links in the zones of minimum magnetic resistance correspond to the provisions of the electromagnetic clutch of the lead and the leads direct shaft 1, 9-clutch gearbox. To reduce the ripple of the electromagnetic coupling moment, the axial direction of the ferromagnetic plates 7 when reaching the surface of the outer cavity of the screen 6 can be directed at a small angle to the axial direction of the poles of the magnetic circuit 2 of the drive link, and when reaching the surface of the inner cavity of the screen 6, at a small angle to the axial direction teeth of the driven link.

5 illustrates the principle of creating an electromagnetic clutch torque of a gearbox. The magnetic flux F created by the electromagnet excitation winding 3 is closed through the magnetic circuit 2 of the driving link, adjacent ferromagnetic plates 7 of the screen 6 and the ferromagnetic armature 8 of the driven link. When the driving link rotates with a rotation frequency of Ω ₁ , a sequential increase in the magnetic flux occurs in the adjacent ferromagnetic plates 7 of the screen 6 adjacent to the poles and decreases in the runaway plates 7. As a result, the zones of maximum magnetic field induction move in the screen 6, which carries the teeth ferromagnetic armature 8. In the considered embodiment, the design of the clutch gearbox when the zones of maximum induction move, the angular change in the polarity of the magnetic field in the screen 6 from the side of its outer bands It occurs through 90 angular degrees, since the magnetic circuit of the driving member 2 has four poles, and from the internal cavity - 180 degrees since the magnetic core (armature 8) of the driven member has two prongs. Thus, the rotational speed of the driven link Ω ₂ is twice the speed of the leading link. The forces of electromagnetic interaction in the clutch gearbox are formed in the same way as in synchronous motors, namely: F ₁ - due to the angular shift of the axis of the poles of the driving link and the axis of the zone of maximum induction of the outer cavity of the screen 6, and F ₂ - due to the angular shift of the axis of the zone maximum induction of the inner cavity of the screen 6 and the axis of the teeth of the driven link.

An electromagnetic clutch gear with a sealing screen 6 operates as follows. When the field winding 3 is connected to a direct current source, the magnetic circuit of the device is excited, as a result of which the elements of the driving and driven links occupy the clutch position corresponding to the minimum magnetic resistance of the magnetic circuit. When you turn a small angle of the drive shaft 1, the axis of the zones of maximum magnetic induction is displaced in the ferromagnetic plates 7 of the screen 6, which leads to the appearance of electromagnetic forces F ₁ and F ₂ , under the action of which the elements 8 and 9 of the driven link again occupy the clutch position. With continuous rotation of the drive shaft 1 with a rotation frequency of Ω _{1, the} rotation of the driven shaft 9 occurs with a frequency of Ω ₂ , two times higher for the structure under consideration. The maximum electromagnetic moment of the clutch gearbox is determined by the structural characteristics of the elements of the device and the magnitude of the magnetic induction in the gaps.

Calculations show that the proposed design has a fairly high specific characteristics, including when used in high power plants. So, for example, in the considered design of the 200 kW coupling of the gearbox with twofold animation of the rotation speed from 3000 rpm of the drive shaft to 6000 rpm of the drive shaft, the diameter of the drive link D = 230 mm with a length of 130 mm, the diameter of the drive link d = 150 mm with a length of 200 mm.

The power losses of the proposed clutch-reducer are defined as the sum of the electric power losses in the field winding and electromagnetic losses in the built-in ferromagnetic elements of the stator (losses due to magnetization reversal and eddy currents). Using measures known in electrical engineering to reduce the above losses, they can be minimized.

We note additional features of the proposed device.

Since the stationary screen 6 (stator) with integrated ferromagnetic plates 7 performs the function of a magnetic flux distributor, the design of the screen 6 can be made with non-coaxial (both height and angle) external and internal cavities. In relation to compressor installations, this feature of the gearbox coupling in some cases will optimize the design of the installation as a whole.

Considering that the magnetic flux in the fixed screen 6 is closed through the built-in ferromagnetic plates 7, the length of which slightly affects the magnetic resistance of the flow circuit when the thickness of the walls of the screen 6 changes, the wall thickness of the screen 6 can be selected based on the requirements for ensuring strength, which is important for use in compressor technology.

The presence in the clutch gearbox of a fixed screen 6 allows you to seal the cavity of the driven link without the use of expensive seals. This quality of the device is the main one for use in compressors, pumps and other technological installations in which rotation is required for devices operating in conditions of high or low pressures and temperatures, aggressive and explosive atmospheres.

Thanks to this embodiment of the electromagnetic clutch gear, its design has high specific characteristics, acceptable power losses at high speeds of the drive and driven shafts, as a result of which the clutch gear is suitable for use in compressors, pumps and other technological installations in which transmission is required rotation on devices operating in conditions of high or low pressures and temperatures, aggressive and explosive atmospheres.

Claims (2)

1. An electromagnetic clutch-reducer with a sealing screen, containing a driving link connected to the drive mechanism shaft, including an electromagnet with an excitation winding and slip rings with sliding current leads, a fixed screen in the form of a housing made of insulating material with built-in ferromagnetic elements having an external and internal cylindrical cavity , in the first of which is the leading link, and in the second - the driven link in the form of a ferromagnetic armature with teeth in the axial direction, designed For communication with the actuator shaft, characterized in that the electromagnet of the driving link is made in the form of a ferromagnetic magnetic circuit with at least one pair of poles located along the axis of the driving link or at an angle to it and facing the cylindrical surface of the fixed screen in the external cavity, between the poles of the magnetic circuit there are field winding coils connected to each other and to the contact rings so that when the electric current flows, alternating polarities of the poles of the electric ctromagnet, built-in ferromagnetic elements of the fixed screen are made in the form of bundles of thin rods or in the form of plates and are located inside the insulating material of the screen housing so that the longitudinal axis of the strips formed by the built-in elements when they exit the surface of the screen in the internal and external cavities and facing the poles of the lead and the teeth of the driven links, are located in the direction along the poles and teeth or at an angle to them. 2. The clutch gearbox according to claim 1, characterized in that the field winding coils are placed between the poles of the magnetic circuit in the corresponding grooves.