RU2232443C2 - Electromechanical closer - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: closer has external electromagnet and movable contact holder. Closer shroud has base mounting coil and fixed armature for electromagnet and power terminals installed within power terminal unit provided with partitions. Configuration of partitions depends on type of power terminals used and forms support of shape suited to shapes of mating unit. These shapes do not depend on types of power terminals used. Proposed design of closer makes it possible to connect it to external conductors using different types of power terminals.

EFFECT: simplified design, reduced cost, and enlarged functional capabilities of closer.

4 cl, 10 dwg

Description

This invention relates to an electromechanical closure, consisting of an outer casing, attached by fastening elements to the base, in which an electromagnet consisting of a coil is placed, and a contact holder that moves when the coil moves, the aforementioned contactor comprises power clamps connected to fixed contacts and separated from movable contacts mounted on the contact holder, and command clamps connected to the coil.

Consumers have growing demands for various power clamps, for example, the threaded type of clamps, spring clamp stopper, movable dielectric clamps, etc. Consequently, the contactor must enable the connection of various types of clamps installed in the housing. Thus, the installed contactor must meet the requirement of how it is easier and cheaper to facilitate the connection of external electrical wires to the terminals.

The present invention is based on the task of creating a simple and cheap contactor with various types of power clamps.

An additional objective of the present invention is the design of this contactor with lightweight control and command connections.

According to the invention, inside the contact holder there is a constant recess, independent of the types of installed power clamps, the power clamps are located in the recesses for the power clamps, which make up one part of the contactor housing, the dimensions of the recesses depend on the types of clamps used, while the power clamp block contains the partitions between the electric clamps, depending on the types of power clamps used, and forms recesses with a suitable shape of the recesses, said shapes can be, for example, a guide and an adjacent groove, regardless of the types of power clamps used.

Thus, the contactor can be presented in the form of an assembly of an arched recess that does not change its shape and variable power clamps depending on the types used.

The back of the contactor housing can be installed with a fastening base containing a coil and a fixed anchor of the electromagnet, and in the front of it is a block of power clamps. The above block of power clamps is fixed to the base while the immutable block is a block of arched shape and is located inside the case, and partially mounted inside the block of power clamps.

The contact holder contains control contacts located in front of the power contacts; the control module is located in the power terminal block and to operate in conjunction with the control contacts.

The description of the invention is not limited to the example of the invention and with reference to the figures, where:

Figure 1 is a diagram of the proposed contactor.

Figure 2 is a disassembled contactor.

Figure 3 is a block diagram of an arched form and a block of power clamps.

Figure 4 is a cross-sectional view of a contactor.

Figure 5 is an image of the internal elements of the contactor on the right side.

6 is an image of a block of arched form on the left side.

7 is an image of an arch-shaped block, a contact holder, a power clamp block and a control / command clamp block; there are no fixed and movable contacts.

Fig. 8 is an image of the base of the unit and the power terminals of the control / command terminals on the right side.

Figures 9 and 10 are a front view of two existing embodiments of a power clamp unit.

The multi-pole electromechanical circuit breaker shown comprises an outer casing 10 having a front portion 10a and a rear portion 10b. In the front part 10a are placed power clamps A, command clamps B and control clamps C. The back part 10b has standard elements 11 for fastening it to the base and contains an electromagnet 20. The housing 10 is equipped with power wires 12 cut in 2 places. The aforementioned power wires 12 have fixed conductive connections 13, carrying fixed power contacts 14 together with movable power contacts 15, which are located on the contact shunts 16. The movable contact shunts 16 are installed in the contact holder 17 and can move under the influence of the coil 21 of the electromagnet 20.

In the main circuit PA of the front part 10a of the housing 10, power clamps A are arranged with the possibility of inserting cables for supplying energy and changing for the power wires 12. In addition, command clamps B are located in the front part 10a, which are located in the command circuit PB located in front of by the PA circuit with the possibility of inserting cables connected to the command circuit, the clamps connect the contactor from the outside to the coil 21 of the electromagnet 20. The control clamps C are also located in the front part 10a that makes up the PC circuit, located located in front of the PA circuit and, for example, combined with the PB circuit, the above terminals are connected by cables or buses to control circuits, alarms or similar circuits.

In more detail, the housing or outer shell 10 of the contactor comprises a base made of an insulating material and shaped like a rectangular box. The base makes up a large part of the rear part 10B and is mounted using the fastening components 11 and contains the coil 21 of the electromagnet 20 installed in it together with the E-shaped fixed armature 22, the core is located vertically.

In the case 10, made of a suitable insulating material, there is an arch-shaped block 40 and a part of the E-shaped movable armature 23 of the electromagnet 20 and the contact holder 17 are located. The contact holder (see FIGS. 4, 5 and 7) contains contact shunts 16, each supports two power contacts 15 of the corresponding polarity, movable contacts are located opposite the corresponding power contacts 14 connected by the conductive elements 13 of the power clamps A. The elements 13 are provided with cut fastening surfaces 13a. Contact shunts 16 are installed in the rear part 17a of the contact holder 17, and movable control contacts 18 are installed in the front part 17b, which cooperate with the fixed control contacts 19. The contact holder 17 has a part 17c formed with a niche for active contacts belonging to the additional part facing to the front of the contactor.

Coil 21 consists of an insulating frame 24, carrying windings 25, and two coil clamps 26 for connecting to command clamps B. This coil 21 is connected by means of connecting blocks 27, respectively more or less oriented perpendicular to the front panel of the contactor, connecting blocks are placed in transverse grooves 28 located on the outside of the block 40 arched form.

The arch-shaped block 40 has a construction in the form of steps, the first stage defines the circuit PA, which provides a connection between the power contacts and power clamps and is blocked by the power clamp block 50, the other stage defines the circuits PB, PC, which provide a connection between the control / command contacts and the control / command clamps and overlap block 60 control / command clamps. The arch-shaped block 40 is made up by assembly 2, consists of two halves 40a and 40b, in a horizontal plane, which can be the middle plane of the contactor Q or a plane parallel to Q. Each half 40a, 40b has an internal partition 41 designed to provide adequate insulation between the power contacts of different polarity from one another, but there are no external insulating partitions between power clamps, each half has a shape of 42 in the form of guides and grooves for attaching and arranging the inter-clamp isolating their partitions 51 provided in the block 50 power terminals. In the front part of the arch-shaped block 40, there are profiled parts 44 that allow frontal installation of additional components on the contactor.

As can be seen from FIG. 3, as well as FIGS. 6 and 7, each partition 51 has a rear portion 51a that corresponds to a groove 42a located behind adjacent adjacent stationary surfaces 13a, in addition, the partition 51 has a portion 51b that is a step and fits to the corresponding groove 42b located in the core (i.e., a threaded connection, a spring clip, etc.) of the power clamp A. The part of the partition located in the direction of the midplane Q of the contactor has two skids 51c that fit into the horizontal grooves 42c (see also Figs. 9 and 10). The grooves 42a, 42b and 42c, together with the corresponding components of the partition 51, provide bypasses that increase the insulation between the conductive parts. The power clamp block has a surface 52 in a Q ’plane that is parallel to the mid-plane Q of the contactor, which is the main plane of the clamp.

The power clamp block 50 can be modified to use different types of joints without changing the arch-shaped block. Thus, for example, FIGS. 9 and 10 show a terminal block 50-1 with spring clips A1 and a terminal block 50-2 with threaded terminals A2. As can be seen in FIGS. 3, 9 and 10, the height of the region 53 defining the active zone of the clamp A, which moves between the surface 52 and the outer adjacent surface 54 of the plane Q of the clamp block, changes in height (Y direction) and depth (X direction) while the arch-shaped block remains unchanged. The front openings 55 of the clamp block allow the tool to be used to move the clamps, and the lower or upper holes 56 are located in the PA circuit, and the openings 55, 56 used to insert the power cables are open to area 53. A cavity 57 is formed between the surface 52 of the clamp block and the parallel surface 43 block arched form, which is provided with ventilation holes. The front of the clamp block 50 has a window 58 through which the front of the arched block passes.

The control / command terminal block 60 approaches the front of the contactor housing. Its front openings 61 allow the use of a tool to move the clamps, and the upper and lower openings 62 are located in the plane of the RV and PC loops and are used to introduce command and control cables. The clamp block 60 and a size that allows its installation in the window 58 of the power clamp block (50) and has a frontal hole 63 that allows the front of the block 40 to pass through it.

The contactor housing is an assembly of the power clamp block and the base so that these two parts form the external contactor housing and the completed shell of the arch-shaped block. The power clamp block 50 is mounted on the base 30 by known means, and the control / command clamp block 60 is mounted on the power clamp block 50 and / or arch-shaped block 40 by known means.

Claims (4)

1. Electromechanical contactor, consisting of an external housing (10), equipped with elements for attaching it to a support, in which an electromagnet (20) with a coil and a contact holder (17), which is made with the possibility of movement during movement of the coil, is installed, the contactor containing power clamps (A), which are connected to fixed contacts and are in a disconnected position with movable contacts, which are on contact shunts installed in the contact holder, and command clamps (B) connected to the coil, distinguishing The fact that the contactor housing (10) comprises a front part (10a) and a rear (10b) with a base (30), which includes a coil (21) and a fixed armature (22) of the electromagnet (20), moreover, located in the housing (10) an arch-shaped block (40) containing a movable armature (23) of an electromagnet (20) and a contact holder (17), and a defining circuit (RA), providing a connection between the power contacts and power clamps, and the arch-shaped block (40) is not dependent from the types of power clamps (A), which are located in the area (53) of the block (50) of power clamps, which makes up the front part of the housing (10), the dimensions of the indicated area (53) depend on the types of clamps used, and the block (50) of the power clamps (A) has partitions between the clamps, the configuration of which depends on the types of clamps used (A) and forms a support with suitable shapes (42) block (40) of an arched shape, the configuration of which does not depend on the types of power clamps used (A). 2. The switch according to claim 1, characterized in that the molds (42) of the block (40) of the arch form, interacting with the indicated partitions (51) of the block (50) of the power clamps, are guiding and restrictive grooves. 3. The switch according to claim 1, characterized in that the contact holder (17) contains control contacts located in front of the power contacts, and on the block (50) of power clamps, a block (60) of control clamps is assembled, with the possibility of working together with control contacts . 4. The switch according to claim 3, characterized in that the arch-shaped block (40) has a design in the form of steps defining a power circuit (RA) and a control circuit (PB, PC) for connecting control contacts and control clamps to each other, and consists of the two halves (40a), (40b) mounted together and having during assembly an separating surface parallel to the front side of the electromechanical contactor, for disconnecting the control and power contacts.

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