KR20010040619A - Electromechanical contactor - Google Patents

Abstract

The present invention relates to a power supply terminal in a housing 53 of a power terminal strip 50 forming a contactor body 10 together with a base 30 for receiving an electromagnet coil and an armature. It relates to an electromechanical contactor of an electromagnet and a mobile contact carrier, in which (A) is provided. The power terminal strip 50 is an inter-terminal partition 51 which depends on the type of power terminal and is adapted to the corresponding form 42 of the arc box 40 inside the body. The shape of the arc box is independent of the type of power terminal.

Description

Electromechanical Contactor {ELECTROMECHANICAL CONTACTOR}

Users are increasingly demanding a variety of power terminals, for example screw-type terminals, elastic cage-type terminals, moving insulator terminals, and the like. Therefore, the contactor must allow other types of terminals to be included in the body. Therefore, it is desirable that the contactor be designed so as to easily connect an external cable to the terminal, while at the same time satisfying these requirements as simply and inexpensively as possible.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mechanical contactor having an outer casing, wherein the outer casing is equipped with components for fixing to a base, and a contact holder which is displaced when moved by the coil and the coil. A power terminal that accepts an electromagnet consisting of a contact holder, which is connected to a fixed contact and detachable from a movable contact mounted to the contact holder, and a command terminal connected to a coil A contactor having a command terminal.

1 is a schematic side view of a contactor of the present invention;

2 is a similar exploded view of the contactor,

3 is a schematic enlarged side view of an arc unit and a power terminal block;

4 is a side cross-sectional view of the contactor;

5 is a perspective view of a contactor inner part viewed from the right,

6 is a perspective view of the arc unit seen from the left,

7 is an exploded perspective view of the arc unit, the contact holder, the power terminal block and the control / command terminal block, with the fixed and mobile contacts removed;

8 is a perspective view of the base and power and control / command terminal blocks seen from the right,

9 and 10 are front views illustrating embodiments of two types of power terminal blocks.

Therefore, it is an object of the present invention to construct a type of contactor that can be easily and inexpensively combined with other types of power connection terminals.

Another object of the present invention is to construct a contactor type of a type that facilitates control and command wiring.

According to the invention, the contact holder is contained within an invariable housing, ie the housing is independent of the type of power terminal it contains. The power terminal is disposed in the housing of the power terminal block constituting a part of the contactor body, and the power terminal block forms a matching shape and a coupling portion of the housing depending on the type of power terminal used. It includes inter-terminal dividers, and the dimensions of the housing depend on the type of terminal used. In addition, the shape may be, for example, a guide or an abutment groove irrespective of the type of the power terminal to be used.

In this way, the contactor can be configured by combining a constant arc housing with a variable power terminal depending on the type of power terminal used.

The rear part of the contactor body is preferably combined with a fastening base for receiving the coil of the electromagnet and the fixed arm, and the front part with the power terminal block. A certain unit is installed inside the body, in particular inside the power terminal block as a particular arc unit, while the power terminal block is mounted on the base.

The contact holder may include a control contact located in front of the power contact, in which case a control unit is included in the power terminal block to work with the control contact.

The following description describes examples that do not limit the invention, and reference is made to the accompanying drawings.

The illustrated multi-pole electromechanical contactor has an outer casing 10 having a body, ie a front portion 10a and a rear portion 10b. The front portion 10a houses a power terminal A, a command terminal B and a control terminal C. The back portion 10b has a conventional part 11 which is required for fixing to the base and includes one electromagnet 20. Body 10 separates power wires 12 into two locations and incorporates them. The power wire 12 has a fixed conducting portion having a fixed power contact 14 together with a movable power contact 15 located on a contact bridge 16. parts). The movable contact bridge 16 is housed in a contact holder 17 that moves under the influence of the coil 21 of the electromagnet 20.

In the front portion 10a of the body 10, the power terminal A is located in the principal circuit (PA) and inserts a power supply or a charge cable to supply power to wire 13 Let's do it. Moreover, the front portion 10a includes a command terminal B constituting the command circuit PB located in front of the circuit PA to insert a cable connected to the command circuit, and the terminal has an electromagnet inside the contactor. 20 is connected to the coil 21. Finally, the front portion 10a includes a control terminal C, which is located in front of the circuit PA and constitutes a circuit PC, for example integrated with the circuit PB, the terminal being controlled or signaled by a cable or bus. connected to a signal or analog circuit.

In more detail, the body or outer casing 10 of the contactor includes a base 30 composed of an insulating material and shaped like a rectangular box. This base occupies most of the back portion 10b and is fitted with the fastening component 11 and houses the coil 21 of the electromagnet 20 together with the E-shaped fixed arm 22. The core of E lies vertically.

The body 10 houses an arc unit 40, which is constructed of a suitable insulating material and houses an E-shaped movable arm 23 and a contact holder 17 of the electromagnet 20. The contact holder 17 (see FIGS. 4, 5, and 7) receives a contact bridge 16 having two mobile power contacts 15, each of which is a separate pole. Each power contact 14 connected by the conducting portion 13 to the power supply terminal A faces the mobile contact, and the conducting portion 13 is provided with a threaded fastening section 13a. The contact holder 17 has a rear portion 17a for receiving the contact bridge 16 and a front portion 17b for receiving a mobile control contact 18 designed to work with the fixed control contact 19 as described below. It is provided. The contact holder 17 has a recess shape 17c designed to activate the contacts belonging to an additional part which is fixed to the front of the contactor.

Coil 21 has a coil insulator 24, which has coil 25 and is coupled with two terminals of coil 26 designed to be connected to command terminal B. This connection is made by each connector block 27 which is somewhat perpendicular to the front panel of the contactor, which connector block is received in the side groove 28 provided on the outside of the arc unit 40.

The arc unit 40 is composed of several stages. In other words, one end forms a circuit PA which ensures contact between the power contact and the power terminal and is covered by the power terminal block 50, and the other end makes contact between the control / command contact and the control / command terminal. It defines the circuits PB, PC to ensure and is covered by the control / command terminal block 60. The arc unit 40 is constructed by assembling two half-units 40a and 40b in a median plane Q of the contactor or in a horizontal plane parallel to Q. Each half unit 40a, 40b includes an internal partition 41 designed to insulate power contacts of different poles, but no external insulating partitions between the power terminals. Each half unit is provided with a guide and a groove 42 for sandwiching and placing the insulating partition 51 between terminals provided in the power supply terminal 50. The molded portion 44 may be located in front of the arc unit 40 to allow the front side attachment unit to be attached to the contactor.

As can be seen in FIGS. 3, 6 and 7, each partition 51 has a rear part 51a that is fitted to a combination groove 42a adjacently located behind the fixing surface 13. In addition, the partition 51 has a portion 51b that fits into the combination groove 42b adjacent to an active part (ie, a butterfly screw, an elastic cage, etc.) of the power supply terminal A. The partition portion located close to the intermediate surface Q of the contactor has two sliders 51c that work together with the horizontal grooves 42c (see FIGS. 9 and 10). It can be seen that the grooves 42a, 42b and 42c together with the part 51 of the associated partition constitute an obstacle that increases the insulation distance between the conducting portions. The power supply terminal block forms a surface 52 at a plane Q 'that is parallel to the middle plane Q of the contactor and acts as a base plane for the terminal.

It should be noted that the power unit 50 can be changed to a connector of another type without the arc unit being changed. 9 and 10 show a terminal block 50-1 having an elastic terminal A1 and a terminal block 50-2 having a screw terminal A2, respectively. As can be seen in FIGS. 3, 9 and 10, the arc unit remains the same, while the activity of the terminal A moves between the surface 52 and the outer surface 54 adjacent to the terminal block face Q ″. The height of the space 53 assigned to the face is variable in height (Y direction) and depth (X direction) .The terminal block is provided with front openings for access to the means for moving the terminal ( 55) and up or down apertures 56, which are located on the face of the circuit PA and are used to introduce the power cables, which are open to space 53. Decompression spaces A 57 is formed between the surface 52 of the terminal block and the parallel surface 43 of the arc unit in which the ventilation holes are provided, wherein the front part of the terminal block 50 is a window through which the front part of the arc unit 40 passes. (window) has 58.

The command / control terminal block 60 is adapted to the shape of the contactor body. The terminal block has a front opening 61 for access to a tool for moving the terminal and an upper or lower opening 62 located on the circuit PB, PC surface and used for introducing command and control cables. ) The terminal 60 is shaped to be accommodated in the window 58 of the power terminal block 50 and has a front opening 63 for passing the front portion of the arc unit 40.

It should be noted that the body of the contactor is configured to assemble the power terminal block and the base to form the outer body of the contactor and to completely enclose the arc unit. The power supply terminal block 50 is fixed to the base 30 by any known means, and the command / control terminal block 60 is connected to the terminal block 50 and / or the arc unit 40 by any known means. It is fixed to).

Claims (6)

It has an outer casing (10) for receiving an electromagnet (20) consisting of a coil and a contact holder (17) which is displaced when moved by the coil and is coupled to the base, and is connected to the fixed contact and connected to the contact. In an electromechanical contactor having a power terminal (A) which can be detached from movable contacts mounted on a holder, and a command terminal (B) connected to a coil, The contact holder 17 is included inside the unit 40 irrespective of the type of power terminal A included; The power supply terminal A is arranged in a housing 53 of the power terminal block 50 constituting a part of the body 10 of the contactor, the dimensions of the housing depending on the type of terminal used; The power terminal block 50 comprises a partition 51 between the terminals, the partition depending on the type of power terminal A used, and the coupling shape of the unit 40 independent of the type of power terminal used. An electromechanical contactor characterized by forming an engagement portion with (42). 2. The electromechanical contactor according to claim 1, wherein the shape (42) of the unit (40) operating together with the partition (51) of the power supply terminal (50) is a guide and stop grooves. . According to claim 1, the rear portion of the body 10 has a base 30 for receiving the coil 21 and the fixed arm 22 of the electromagnet 20, the front portion has a power terminal block 50, Electromechanical contactor, characterized in that the unit (40) is located inside the body (10) as a particular arc unit, while the power terminal block is fixed to the base. The base unit (30) of claim 1, wherein the unit (40) is coupled to the power terminal block (50), and the body of the contactor (30) receives the coil (21) of the electromagnet (20) and the fixed arm (22). An electromechanical contactor, characterized in that it is constructed by assembling a power terminal block. 2. The contact holder (17) according to claim 1, characterized in that the contact holder (17) has a control contact located in front of the power contact, and the control terminal block (60) is installed in the power terminal block (50) to operate together with the control contact. Electromechanical Contactors. 6. The unit (40) according to claim 5, wherein the unit (40) is composed of two half units (40a, 40b) assembled together, and the half units (40a, 40b), once joined, have a front panel of a contactor. An electromechanical contactor having a separation surface parallel to and separating the control contact from the power contact.