RU2126566C1 - Modular multipolar switch - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: each break module is formed by monoblock cassette having form of rectangular parallelepiped and manufactured from plastic material that is put into proper compartment of base plate. Mentioned cassette includes as minimum one immobile contact, arc chute and pair of contact inserts ensuring connection with terminal and release module of same pole. Module of mechanical drive includes unit of change-over rod and mechanism and is reliably anchored on cover. Rotary releasing rod rests against fixing means arranged on lower surface of cover. Assemblage of recesses and openings is provided in gaskets of base plate in the capacity of first surfaces of bearings correspondingly for change-over rod and releasing rod when first subunit made up of base plate with collection of break and release modules is joined to second subunit formed by cover on which module of mechanical drive, releasing rod and latch are mounted. EFFECT: invention makes it feasible to build up several types of switches from modules having standard dimensions. 5 cl, 16 dwg

Description

 The present invention relates to multi-pole switches.

 An example of such a switch is a switch described in US patent US A-5025236.

These switches consist of a cast insulating casing, a base plate, divorced by means of gaskets into several adjacent compartments to accommodate various poles; moreover, each pole consists of a disconnecting module with individual contacts and a tripping module, a cover fixed on the base plate to close the housing, an actuator mounted between two support plates and having a crank lever device that is connected to a closing spring and to a trip bracket,
- a handle connected to the actuator and passing through a cutout in the housing cover to provide access to it from the outside of the switch;
- a switching rod made of an insulating material and serving as a support for all movable contacts for all poles, said rod being mechanically connected to a crank lever device installed with the possibility of its limited rotation between the positions corresponding to the closed and open positions of the switch contacts;
- a trip rod interacting with the pole trip modules and with the tripod latch latch.

 Depending on the type of customer’s electrical installation, the circuit breakers can be single-pole or multi-pole with two, three or four poles. Depending on the maximum permissible parameters for switching on or off electrical installations and on the type of protection required for the circuit breakers, the appropriate components or parts should be carefully selected, which mainly relates to the mechanism, the switching rod, contact parts, arcing chambers and, in addition, to trip devices. To meet these requirements, it is necessary to have a wide range of circuit breakers, and their alternatives. The production of so many types of circuit breakers inevitably gives rise to problems associated with their installation, since parts or components of the circuit breaker construction often have different configurations and are not interchangeable.

 The basis of the present invention is the task of creating a multi-pole circuit breaker having a modular design, allowing you to build several types of circuit breakers from modules having standard sizes.

The switch of the present invention is characterized in that:
- each of the opening modules is formed from a monoblock rectangular parallelepiped-shaped cassette made of plastic material and placed in the corresponding compartment of the base plate, said cassette comprising at least one fixed contact; from an arcing chamber and from a pair of connecting conductors for connection with a clamp and with a trip module of the same pole;
- a mechanical drive module has been introduced, which includes a switching rod assembly and a mechanism assembly that is rigidly fixed to the cover;
- a rotating trip rod is mounted on locking devices that are located on the lower surface of the lid;
- provide for many grooves and cutouts in the gaskets of the base plate, so that for the purpose of their use as the first working surfaces of the bearings, respectively, for the switching rod and the trip rod, when the first subassembly A, consisting of a base plate with a set of trip modules and trip modules, is connected to the second subassembly B formed by the cover on which the mechanical drive module, the trip rod and the latch are located.

 Of the various types of opening, tripping and mechanical drive modules that correspond to the required performance and maximum permissible parameters for switching switches on or off, all the required variety of molded case circuit breakers can be manufactured. The design of the housing, designed for a predetermined number of poles, remains identical regardless of which modules will be selected for the manufacture of this switch. The setting of the switching rod to a predetermined position is performed simultaneously with the installation of the trip rod when the pre-assembled subnodes are connected.

 On the side of the base plate, such a rod is installed in two lower semi-bearings, which are formed by adjacent recesses in the gaskets and recesses provided on the large side panels of the cassettes. From the side of the housing cover, the upper rod semi-bearings are formed by curved bearing surfaces, which are firmly fixed to the base plates of the mechanism.

The further invention is illustrated by a description of examples of its implementation with reference to the accompanying drawings, in which:
FIG. 1 is a schematic sectional view of a multi-pole switch in accordance with the present invention, shown in the open state of the contacts;
FIG. 2 - various modules included in the circuit breaker shown in FIG. 1 disassembled;
FIG. 3 - module mechanical drive formed by a complex of the switching rod connected to the drive mechanism;
FIG. 4 is a vertical projection of a switching rod equipped with movable contacts;
FIG. 5 is a vertical projection of the trip rod;
FIG. 6 - two preassembled subassemblies of the switch shown in FIG. 1;
FIG. 7 is a top view of subassembly A shown in FIG. 6;
FIG. 8 is a bottom view of subassembly B shown in FIG. 6.

 As shown in FIG. 1 and 2, the multi-pole switch 10 with a molded insulating casing 12 includes a single-pole disconnect module 14 formed by a monoblock cassette 16 made of molded plastic material and having the form of a rectangular parallelepiped. The cassette 16 consists of a base plate 18, a front panel 20 having an opening 22 for passing the movable contact 24, two parallel large side panels 26, 28, and two parallel small side panels 30, 32, providing a connection.

 Inside the cassette are two fixed contacts 34, 36, respectively connected by connecting conductors 35, 37 with the first contact insert 38 of the connecting clamp 40 and with the second contact insert 42, intended for connection with the screw 43 to the third contact insert 44 of the trip module 46.

 The trip device includes a trip module 46; the module shown in FIG. 1 is formed by a magnetothermal trip device provided on the side opposite to the contact insert 44 with four contact inserts forming part of another pole connecting terminal 50. The trip module 46 is connected in series with the pole by contacts 34, 36, 24 of the trip module 14.

 In the closed position of the circuit breaker, current enters through the input connection terminal 40 and flows sequentially through conductor 35, fixed contact 34, movable contact 24, second fixed contact 36, conductor 37, contact inserts 42, 44, trip device 46, and output connection terminal 50.

 The tripping device further comprises a tripping rod 52 mounted with a possibility of its limited rotation between the gearing position and the tripping position corresponding to the positions of the element driving the tripping device 46, for example, a bimetallic strip 54 or a lever 56. The rotating rod is deployed to the tripping position as soon as the current flowing along the pole will exceed a predetermined threshold value. In addition, the trip rod cooperates with a latch 58 of the drive mechanism 60 with the crank arm 62 and the handle 64.

 The mechanism 60 is common to all poles and is located in the housing between two metal support plates 66, 68, of all the components of such a mechanism, only the handle 64 is accessible from the outside of the switch housing; the handle 64 passes through the hole 65 in the housing 12 and with its help, the operation of the switch 10 is provided.

 The mechanism 60 includes a trip bracket 70 mounted on an axis on parallel support plates 66, 68; the free end of the bracket 70 engages with the latch 58 in the engagement state. The closing spring 72 is installed between the articulating finger 74 of the crank arm 52 and the finger 76, securely fixed to the base 78 of the handle 64.

 The lower lever 80 of the crank lever 62 is connected to the protrusion 81 of the switching rod 82, which serves as a support for the movable contacts 24 of all poles. The switching rod 80 is made of insulating material and is parallel to the trip rod 52 and perpendicular to the poles. The upper arm of the crankshaft 62 is articulated with a trip bracket 70.

 The unlocking action of the trip rod 52 on the latch 58 leads to the release of the action of the closing spring 72, which leads to the movement of the crank lever 62 and to the rotation of the rod 82 in the position that causes the opening of contacts 34, 36, 24 of all poles. The unlocking command for the latch 58 may be given from the magnetothermal trip module 46 or from the auxiliary trip device, namely, from the shunt trip M, the closing trip unit MX, the differential trip device, etc.

 In the opening module 14, two additional arcing chambers are additionally placed; one of such chambers 84 is shown in FIG. 1. The outlet of the chamber 84 is connected to the hole 86, which allows the gases generated by opening the contacts to exit the cassette 16.

 As can be seen from FIG. 2, the insulating body 12 of the switch 10 consists of a base plate 88, on the upper surface of which a unit is installed, including a cover 90 and a covering front plate 92. The inner part of the base plate 88 is divided into several adjacent compartments 96 by means of intermediate gaskets 94, 95 , 98, 100 used to accommodate various poles. As shown in FIG. 7, the two side compartments 96 and 100 are left empty, and the middle compartment 98 is indicated by the cassette 16 of the opening module 14 installed in its left part, and the trip module 46 installed in its right part.

 As can be seen from FIG. 2, the magnetothermal trip module 46 can be replaced by another trip module 46a, for example of the electromagnetic type, characterized by a wide range of trip threshold values, for example, similar to that described in French patent FR 2639148.

 The switching rod 82 shown in FIG. 4, is equipped with three nodes of the fork movable contacts 24, which are located at equal distances from each other along the length of the rod 82; the contact strips are perpendicular to the rod 82. Two intermediate sections of the rod 82 have cylindrical bearing surfaces 102, 104 on which centering rings 106, 108 are provided.

 As shown in FIG. 7, the large side panels 26, 28 of each of the cassettes 16 have a pair of V-shaped recesses 110, 112 facing the front panel 20. The same can be said about the upper edges of the gaskets 94 and 95 of the base plate 88, on which a pair is provided concave grooves 114, 116, coinciding with the corresponding recesses 110, 112 on the cassettes 16 in the transverse direction.

 Elongated openings 118, 120 are provided in the gaskets 94, 95, which are located in the longitudinal direction, which ensures the formation of small separation gaps between the compartments 96, 98, 100.

 As can be seen from FIG. 2, the connection of the protrusion 81 of the rod 82 with the lower arm 80 of the mechanism 60 allows the mechanical drive module 122, which is shown in FIG. 3. On two parallel metal support plates 6, 68 of the mechanism 60, positioning protrusions 123, 124 are provided that support the gaskets 94, 95 when the cover 90 is mounted on the base plate 88.

 As can be seen from FIG. 5, the trip rod 52, made of molded insulating material, has two cylindrical shanks 126, 128, two cylindrical intermediate surfaces of bearings 130, 132, a drive pin 134 for engaging with an auxiliary trip device, and a drive protrusion 136 of the latch 58.

 On the lower surface of the cover 90 (FIGS. 2 and 8), two flexible support legs 138, 140 are provided at its two opposite ends, which are capable of receiving two shanks 126, 128 of the trip rod 52, clamping them to allow pre-installation of the trip rod 52 on the cover 90 to the desired position. The latch 58 is also securely fixed to the bottom surface of the cover 90, preferably in its middle zone, in order to ensure its interaction with the driving protrusion 136, combined with the trip rod 52.

 In addition to the recesses 114, 116 located on the left side of the gaskets 94, 95 to accommodate the rod 82, for receiving the cylindrical surfaces of the bearings 130, 132 on the disengagement rod 52 on the right side of the gaskets 94, 95 (Fig. 7), V-shaped cutouts 138, 140.

 Using various standard modules 14, 46, 46a, 122, a wide range of molded case circuit breakers can be manufactured depending on the required performance and maximum permissible parameters. The latch 58 and the trip rod 52 are two mechanical components that are securely fixed to the cover 90 and remain the same regardless of the type of modules 14, 46, 46a, 122 used to make the switch 10.

 In addition to the two types of trip modules 46, 46a described above, there are various trip modules 14, either with single or double tearing, or with one or two arcing chambers equipped with a certain number of dividing walls and corresponding to the required breaking power of circuit breaker 10.

 The spacing of the contact inserts 38, 42 of the connection clamps remains unchanged for all types of modules 14.

 The mechanical drive modules 122 also rearrange the devices allowing their adaptation to the power of the circuit breaker 10 for the reason that there are switching rods 82 having different diameters and mechanisms 60 with closing springs 72 having different stiffness.

 After the standard modules 14, 46, 46a, 122, which must be installed on the base plate 88 and the cover 90, are selected, the switch 10 can be made in an automatic installation for the assembly of switches.

 Shown in FIG. 6 to 8, the switch 10 is formed by connecting the first subassembly A, which includes a base plate 88, on which the opening module 14 and the trip module 46 of the various poles are located, and the second subassembly B, formed by the cover 90 and the front plate 92, on which there is a mechanical drive module 122, a trip rod 52 and a latch 58.

 After connecting the two subnodes A and B with each other, it becomes possible to close the housing 12 with a lid; in this case, the switching rod 82 and the trip rod 52 will automatically be placed in the respective bearings of the gaskets 94, 95 of the base plate 88. During the installation of the second subassembly B on the base plate 88, the movable contacts 24 of the switching rod 82 will penetrate into the arcing chambers through the corresponding holes 22 cassettes 16.

 The entire assembly in the assembly is fixed in place by fixing screws (not shown) that hold together two sub-assemblies A and B of the switch.

 Installation of the switching rod 82, providing its necessary rotation, is carried out at the level of the plane of connection of the subassemblies A and B. The surfaces of the bearings 102, 104 are installed in the required position between the two lower semi-bearings formed by the recesses 114, 116 of the gaskets 94, 95, and the recesses 110 combined with them 112 cassettes 16 and two upper semi-bearings formed by curved second bearing surfaces 114, 146 located on the lower edges of the bearing plates 66, 68 of the mechanism 60.

Claims (6)

1. A modular multi-pole switch with a molded insulating casing, consisting of a base plate, divided by spacers into several adjacent compartments to accommodate different poles, each of the poles consisting of an opening module with separate contacts and a trip module, a cover fixed to the base plate and covering the housing, the drive mechanism mounted between a pair of support plates and containing a crank arm connected to a trailing spring and with a release bracket, a handle connected with a drive mechanism and passing through the hole of the cover, thereby providing access to it from the outside of the switch, the switching rod made of insulating material and serving as a support for the movable contacts of all poles, and the specified switching rod is mechanically connected to the crank lever and installed so that its limited rotation between the positions corresponding to the open and closed states of the contacts, the insulating rotating trip rod, interacting with pole disengaging modules and with a latch of a disengaging bracket, characterized in that each of the opening modules is formed
from a monoblock cassette made in the form of a rectangular parallelepiped made of plastic material and placed in the corresponding compartment of the base plate, said monoblock cassette comprising at least a fixed contact, an arc suppression chamber and a pair of contact inserts that are used to connect with the connecting clamp and a trip module of the same pole, a mechanical drive module has been introduced, consisting of a switching rod assembly and a drive mechanism assembly rigidly fixed to the roofs e, an insulating rotary disengaging rod is mounted on fixing means located on the lower surface of the cover, there are many grooves and cutouts on the base plate gaskets for use as first bearing surfaces, respectively, for a switching rod and a disengaging rod, for connecting a first subassembly consisting of a base plate with a set of opening modules and trip modules, with a second subassembly formed by a cover on which a mechanical drive module is installed.  2. The switch according to claim 1, characterized in that the cartridge of each of the opening modules consists of a front panel, in which there is a hole for passing the corresponding movable contact, and two parallel large side panels that have recesses matching the recesses on the gaskets perpendicular a switching rod that has at least two cylindrical bearing surfaces located between two lower semi-bearings formed by adjacent recesses on the gaskets and recesses on the cassettes , and two upper semi-bearings formed by the curved surfaces of the second bearings, which are securely fixed to the support plates of the drive mechanism.  3. The switch according to claim 2, characterized in that the gaskets have oblong holes elongated in the longitudinal direction, thereby forming separation gaps between the compartments of the base plate, each of the bearing surfaces of the switching rod being provided with a centering ring that engages with the edges of the respective gasket holes.  4. The switch according to claim 1, characterized in that the two support plates of the drive mechanism are equipped with support protrusions that are mounted on gaskets for mounting the cover on the base plate.  5. The switch according to claim 1, characterized in that the locking means consist of two legs located on opposite sides of the lid, capable of receiving two cylindrical shanks of an insulating rotary disengaging rod having, in addition to them, two intermediate bearing surfaces corresponding to the supporting surfaces of the cutouts in the gaskets .  6. The switch according to claim 1, characterized in that each of the cassettes consists of two opposite parallel small side panels located perpendicular to the contact inserts, and the distance between these contact inserts remains constant for all types of opening module.

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