RU2035784C1 - Isolator - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: isolator is designed for high-voltage electrical equipment. It has link in the form of solid rod with fixed distances between holes for axles of hinges and attachement of stationary insulators, through arc-shaped holes adjustment is provided by simultaneous entry of both ends of each mobile knife into contact with stationary knives and of all mobile knives simultaneously without one lagging behind other. Knives of insulators are anchored with the aid of semi-clamps with protrusions entering arc-shaped flutes of insulator heads. Joining of insulators with supports and shafts with the halp of compensating flexible bushings fitted into insulators by means of epoxy compound and on ends of supports provides for increased reliability of attachment and prevents destruction of porcelain of insulators cause by temperature deformations due to difference of coefficients of linear expansion of porcelain and metal of supports. EFFECT: prolonged service life of isolator. 5 cl, 6 dwg

Description

 The invention relates to electrical engineering, namely to disconnectors designed to disconnect a damaged part of a high-voltage distribution network line, and can be used in high-voltage power supply lines of settlements, industrial enterprises, railway contact network, etc.

 Known disconnector containing a contact knife mounted on a rotary insulator, and a fixed insulator, on the head of which there is a rotary contact with a leash and a return spring, one end of which is fixed motionless, and the other is connected to a leash of a rotary contact. In this case, the rotary insulators are pivotally connected to the rod, the end joints of which are equipped with screw adjusting ties.

 The presence of rotary elements in the current-carrying part of fixed insulators creates significant losses due to varying resistance, arcing, and other factors that adversely affect the contact of live moving elements. The disadvantages of the disconnector include the fact that this design leads to the destruction of the contacts "output-loop" due to the rigid connection of the conductor of the input or output loop to the rotary part of the contact knife. During the disconnection operations, accompanied by the turns of both knives of each pair of the disconnector, the wires connected to the output contacts are broken and burnt out during the passage of current. To adjust the simultaneous rupture or inclusion of all knives of the disconnector, the rod pivotally connecting the rotary insulators is made with end hinges equipped with screw ties in the form of S-shaped rods, the threaded ends of which are fixed with nuts in the holes of the L-shaped strips, paired with the extreme levers insulators. S-shaped rods are the weakest from the point of view of mechanical strength link drive rotation of the movable insulators, which leads to their breakdown with increasing efforts to turn off or on the disconnector. In each electrical circuit, the disconnector makes it possible to obtain only one gap between the contacts. The formation of only one gap reduces the reliability of disconnecting consumers of electricity during the repair, since it does not give a one hundred percent guarantee of the exclusion of short circuits of any pair of contacts due to random reasons for icicles or parts of icing freezing, accidental blocking by bird landing, etc.

 Known disconnector, RLNT2-10 / 200, containing movable two-bursting blades mounted on movable insulators mounted on the rotation shafts passing through the holes of the frame, equipped with levers connected to the hinge rod, and reciprocal fixed knives with contact jaws, and the end joints of the rod provided screw adjusting ties, and fixed insulators are devoid of any elements for adjusting the position of the jaws of fixed knives.

 The disadvantage of this disconnector is that the adjustment of the simultaneous rupture or shutdown of all knives of the disconnector is achieved by screw ties, which are provided with the ends of the articulated rod. These ties are made in the form of S-shaped rods, the threaded ends of which are fixed with nuts in the holes of the L-shaped strips, pivotally connected to the levers of the extreme movable insulators. These elements are the weakest from the point of view of mechanical strength and reliability of the link of the drive turning the movable insulators, which leads to their failure with an increase in the effort required to turn off, or to self-unscrew during operation and, as a result, to accidents, to accidents.

 The disadvantages of the RLNT2-10 / 200 disconnector also include the fact that it contains bearings of its fixed insulators and a sliding bearing of a rotary insulator, which has a shaft passing through a bearing containing a support, a plate and a support element for the interaction of the support with the plate, and the support is made in in the form of a box of sheet material with upper and lower holes for shaft passage, a plate in the form of a flat washer, a support element for the interaction of the support with the plate in the form of a first collar made of tovogo material, the outer surface of which is tangent to circles of a plane drawn perpendicular to the shaft axis, and a cylindrical surface coaxial with the shaft, while the lower bearing aperture of the second collar is fixed, symmetrical to the first and second set flat washer, split pin supported.

 Among the disadvantages of the bearing, in addition to excessive complexity, are the fact that the shaft rests at the top and bottom on two collars in contact with it on narrow annular surfaces, which, despite filling the box cavity of the support frame with grease, does not prevent rapid local wear of the shaft and collars due to due to high mechanical contact loads on contact surfaces having a small area, and also due to the absence of any sealing elements that would prevent the grease from flowing out during its melting due to solar heating during outdoor installation of disconnectors, especially in areas with a hot climate.

 The disadvantages of the bearing include the fact that the presence of a washer rigidly connected to the shaft and its connection with the insulator rebound washer requires the use of insulators with a metal fastener that is embedded tightly in the porcelain body of the insulator. Most often these are cast-iron parts, the linear expansion coefficient of which exceeds the linear expansion coefficient of porcelain, which leads to the formation of cracks in porcelain (or glass) insulators and to their destruction or breakdown due to moisture entering these cracks. The same drawback occurs when fastening movable and fixed knives to the upper part of insulators having cast-iron leads covered by the ceramic body of the insulator.

 The disadvantage is the lack of protection of the surfaces of the knives at the contact point to reduce the perimeter of the edges of their mutual contact, subject to freezing with ice.

 Known horizontally rotary disconnector containing a frame on which are mounted insulators with contact knives, the movable of which is fixed to the corresponding movable support insulator using a mounting plate, one end of which is rigidly fixed to the support insulator, on the free end of which is movable with coupling bolts a knife, moreover, to adjust the contacts of the holes in the movable knife, through which the coupling bolts pass, are made in the form of longitudinal grooves, and the bolt hole in the mounting th plate, located on the side of its free end, is also made in the form of a groove located at an angle with respect to the grooves of the knife.

 The disadvantage of this disconnector is that the work on its adjustment is associated with the touch of the worker to live parts. This, firstly, is associated with increased danger, and secondly, complicates the adjustment due to the need for multiple adjustments made when the neighboring sections of power lines are completely disconnected.

 Of the described technical solutions, the RLNT2-10 / 200 disconnector has the largest number of features in common with the claimed technical solution and is taken as a prototype.

 The purpose of the invention is to simplify the design and increase the service life by eliminating the lag of the moving contacts of the poles from each other when turned on, and also by ensuring the simultaneous contact of all movable knives with fixed knives. In other words, the goal is to simplify the design and facilitate the adjustment of the disconnector while increasing the reliability of the connection of the knives with insulators by eliminating the destruction of insulators due to the different coefficient of linear expansion of their material and the material of the metal fastening parts by placing metal parts outside the porcelain parts of the insulator.

 The aim of the invention is also to increase the reliability of the connection of rotary shafts and fixed racks with insulators by eliminating the destruction of insulators due to the different coefficient of linear expansion of their material and the material of the metal parts of the joint by placing intermediate compensating elements between the covering surface of the porcelain and the covered metal surface.

 The purpose of the invention also includes improving the reliability of the disconnector by eliminating increased wear and seizing of the rotary axes due to "sticking" as a result of corrosion.

 The essence of the claimed technical solution is characterized by significant features borrowed from the prototype, which include movable two-burst (two-console) knives mounted on movable insulators mounted on rotation shafts passing through the holes of the frame, equipped with levers connected by articulated traction, and reciprocal fixed knives with contact jaws, as well as signs other than the prototype, such as the implementation of the articulated traction in the form of a solid rod with a hole under the axis of the hinges, and holes pleniya each fixed insulator to the frame in the form of an arc-shaped groove, the geometric center of the arc of which coincides with the axis of the insulator. Signs that distinguish the claimed technical solution from the prototype include the fact that the isolator uses linear insulators with heads having arcuate grooves, with which clamps made of two halves interact with protrusions entering the grooves, and the knives are mounted on studs rigidly connected with half clamps. Since metal clamps have a linear expansion coefficient greater than the porcelain heads of the insulators covered by them, the destruction of the latter due to the influence of variable temperatures is excluded.

 Signs that distinguish the claimed technical solution from the prototype also include the fact that the upper ends of the rotary axes and fixed racks are equipped with corrugations that interact with the holes of the insulators through elastic, for example, polyethylene, bushings, and on the contact surfaces of these elements before assembly the adhesive composition is applied on epoxy base, and the lower end of the insulator at the point of entry of the rod in it is additionally filled with epoxy compound.

 The distinctive features of the prototype include the fact that the bearing of the rotary assembly is made of heterogeneous material, and the female element is made in the form of a sleeve of corrosion-resistant material, the upper end of which contacts the shoulder of the rotary axis, the diameter of which exceeds the outer diameter of the end of the sleeve.

 The presence in the claimed technical solution of essential features that are different from the prototype, as well as the causal relationship of these features in the total set of essential features ensuring the achievement of the purpose of the invention, confirm the compliance of the claimed technical solution with the criterion of "novelty."

 New properties that the prototype does not possess, as well as the properties that the claimed technical solution possesses, in contrast to the properties achieved by the technical solutions described above, allow us to conclude that the claimed technical solution meets the criterion of "inventive step".

 From the above it is seen that all the features of the invention allow to achieve the results set by the purpose of the invention. Based on this, it is legitimate to conclude that the invention meets the criterion of "industrial applicability".

 In FIG. 1 shows the proposed disconnector, side view; in FIG. 2 same disconnector, top view; in FIG. 3, section AA in FIG. 2; in FIG. 4 a section BB in FIG. 3; in FIG. 5 is a section BB of FIG. 3; in FIG. 6 section GG in FIG. 3.

 On the frame 1, horizontally rotary insulators 2 with contact two-console knives 3 and fixed insulators 4 with contact knives 5 are installed. Contact knives with the help of nuts 6 and studs 7 reduced to half clamps 8 are mounted on the heads of insulators 2 and 4 having arcuate grooves 9. The half-clamps 8 are equipped with protrusions 10 included in the grooves 9 of the insulators 2 and 4 and, through the rubber gaskets 11, are tightened with bolts 12 on the heads of the insulators. Such a connection of knives with insulators ensures reliable fastening of knives on insulators and eliminates the destruction of porcelain insulators from temperature deformations due to the difference in the linear expansion coefficients of porcelain and steel, because, firstly, there is a rubber gasket between the insulator and clamps, and secondly, the male part (clamp) is made of metal, which has a coefficient of linear expansion larger than porcelain insulator. In addition, the protrusions of 10 clamps included in the grooves 9 of the insulators guarantee reliable retention of the half clamps 8 both from turning on the insulators and from falling off their heads.

 The contact jaws 13 of the fixed knives 5 are made in the form of C-shaped plates 14 facing the openings with the pharynx. The lower branches of the C-shaped plates 14 (Fig. 6) are rigidly connected to the lower surface of the fixed knives 5, for example, by welding. In this case, the upper branches of the C-shaped plates 14 form the visors located above the movable knives 3. The visors are influenced by spring plates 15 fixed to the knives 5 with nuts 6 and studs 7. This embodiment of the contact jaws 13 reduces access for ice formation at the junction of the movable 3 and fixed 5 knives, which facilitates the exit of knives 3 from contact with knives 5 in icy conditions.

 The presence of spring plates provides reliable contact of the knives 3 with the knives 5 when they are connected in the process of switching on.

 Both the rotary insulators 2 and the stationary insulators 4 have the same connection with the elements with which they are supported on the frame 1. The rotary shafts 16 of the insulators 2 and the posts 17 of the insulators 4 at the upper ends are provided with corrugations interacting with the openings of the insulators, also having corrugations, through elastic bushings 18 made, for example, of polyethylene, and the outer and inner surfaces of the bushings also have grooves similar to the grooves of the ends of the parts with which they are in contact. An epoxy adhesive is applied to the contacting surfaces of these elements before assembly. In addition, the lower end of the insulator at the point of entry of the rod into it is additionally filled with epoxy compound. Such a connection of the insulator with the uprights and rotary shafts ensures reliable fastening of the insulators with the perception by this connection of significant torques arising both when switching on and especially when switching off the disconnector. In addition, the described connection eliminates the destruction of insulators due to different linear expansion coefficients of the covering elements of the porcelain part of the insulator and metal rods, as between the metal having a higher coefficient of linear expansion and porcelain having a low coefficient of linear expansion, an elastic sleeve 18 is installed. compensating for this difference. The use of linear standard insulators in this case ensures the unification of disconnecting elements with insulators used in the power line and can significantly reduce the cost of manufacturing, repairing and operating disconnectors.

 The fastening to the frame 1 of the fixed insulators 4 is made in the form of plates 19 rigidly connected to the posts 17 with holes 20 made in arcs concentric with the axes of the insulators 4. The post 17 is fixed to the frame with nuts 21 passed through the holes 20. This allows you to adjust the position of the jaws 13 fixed knives 5 by turning around the axes of the insulators in such a way as to ensure simultaneous contact of both ends of the movable knives 3 with the fixed knives 5 when the disconnector is turned on.

 In the lower part of the shafts 16 of the rotary insulators 2 are equipped with levers 22, which are pivotally connected with the rod 24 with the fingers 24 with fixed (i.e., unregulated) distances D between the hinges. This ensures the stability of the disconnector adjustment to the simultaneous inclusion of all rotary knives and guarantees the strength of the rotation unit with increasing loads in icy conditions. The lower ends of the shafts 16 of the rotary insulators 2 constitute a male bearing element, the female element of which is made in the form of a sleeve 25 of a corrosion-resistant material, for example stainless steel. The upper end of the sleeve 25 is in contact with the shoulder 26 of the shaft 16, and the diameter of the shoulder is larger than the outer diameter of the sleeve at the point of contact with it. A washer 27 is attached to the shaft 16 from below, held by a cotter pin 28. This embodiment of the bearing assembly makes it possible to increase the reliability of the disconnector by eliminating jamming of the rotary shafts due to “sticking” as a result of corrosion of the bearing parts. At least one of the bearing elements of the sleeve 25 or the end of the shaft 16 with a collar 26 must be made of stainless steel. For simplicity and cheapening of the construction, the sleeve 25 is made of stainless steel.

 The disconnector operates as follows.

When communicating translational motion to the thrust 24 or rotational motion to the lower end of one of the shafts 16, the insulators 2 rotate clockwise (Fig. 2), and with them the movable two-console knives 3, coming out from under the visors of the plates 14 and interrupting contact with both ( left and right) fixed legs 5. The rotation of the knives 3 continues until they occupy a position perpendicular to their included (initial) position, i.e. the rotation of the knives 3 is carried out by 90 ^about . With the reverse movement, the ends of the knives 3 enter under the visors of the plates 14, which, using springs 15, firmly press them to the fixed knives 5.

 Thus, due to the fixed distance between the traction hinges and the presence of fixed insulator mounting holes made along circular arcs, both ends of each movable knife come into contact simultaneously with a pair of fixed knives and all the movable knives come into contact simultaneously. Due to the described fastening of knives to insulators and insulators to racks and rotary shafts, the reliability of the disconnector is increased and thermal destruction of the insulators during operation is prevented.

 The implementation of at least one of the rotation bearing elements of the insulators of a corrosion-resistant material and the implementation of the shaft shoulder with a diameter larger than the outer diameter of the sleeve end face ensure reliable operation in all weather conditions by eliminating atmospheric moisture from entering the bearings, as well as due to the corrosion resistance of the bearing.

 The presence of fixed blades on the contact jaws, the presence of spring plates above them, covering part of the perimeter of their contact with the movable knives, as well as an increase in the traction strength of the knives turning mechanism and the connection of knives with insulators and insulators with racks and rotary shafts ensures reliable switching on and off of the disconnector and increasing its service life, reducing operating and repair costs, as well as reducing the cost of manufacture.

Claims (5)

 1. DISCONNECTOR of a horizontally rotary type, comprising movable two-console knives mounted on movable insulators mounted on the rotation shafts entering through the holes of the frame, equipped with levers connected to the articulated rod, and reciprocal fixed knives mounted on a fixed insulator with contact jaws, characterized in that the articulated rod is made in the form of a solid rod with a fixed distance between the holes under the axis of the hinges, and the mounting holes of each fixed insulator in the frame made along an arc of a circle whose center coincides with the axis of the insulator.  2. The disconnector according to claim 1, characterized in that said insulators are made in the form of linear insulators with heads having arcuate grooves, with which clamps made of two halves interact with projections included in said grooves, and the knives are mounted on studs rigidly connected with half clamps, and between the heads and clamps there is a compensating gasket made of elastic material with a high coefficient of friction.  3. The disconnector according to claim 1, characterized in that the upper ends of the rotary shafts of the stationary racks are provided with grooves interacting with the holes of the insulators through flexible polyethylene bushings, and on the contact surfaces of these elements, an epoxy-based adhesive is applied to the assembly, and the lower end of the insulator the place where the rod enters it is additionally flooded with epoxy compound.  4. The disconnector according to claim 1, characterized in that a bearing made of dissimilar material is located on the rotation shaft, the female element being made in the form of a sleeve of corrosion-resistant material, the upper end of which contacts the shoulder of the rotary shaft, the diameter of which exceeds the outer diameter of the end bushings.  5. The disconnector according to claim 1, characterized in that said contact jaws are made in the form of C-shaped plates facing the openings with their throats, the lower branches of the C-shaped plates being rigidly connected to the lower surfaces of the fixed knives, forming visors interacting with the upper branches with the combined ends of the spring plates rigidly fixed by the second ends to the fixed knives.

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