KR101565291B1 - Holder for an electromagnetic switching device - Google Patents

Abstract

The present invention relates to a holder for holding a contact element in an electromagnet switching device, the holder comprising a closed frame (23) having a first end (29) and a second end (31) The contact element 3 is removably received between the compressible material 47 and the second end 31 and is attached to the frame 23 at one end 29, The second end 31 and the first end 29 face each other.

Description

[0001] HOLDER FOR AN ELECTROMAGNETIC SWITCHING DEVICE [0002]

The present invention relates to a holder for holding a contact element in an electromagnet switching device.

Electromagnet switching devices are typically used to control the flow of current in electrical circuits. The electromagnet switching device is controllable for switching between an on state and an off state for closing and blocking the power supply circuit. The electromagnet switching device can be controlled manually or electrically. In order to electrically control the electromagnet switching device, the magnets may be employed to actuate movable contact elements for closing and blocking the power supply circuit.

Typically, a movable contact element is moved into engagement with a stationary contact element for closing the power supply circuit. The stationary contact element is electrically connected to the power supply. Thus, the power supply circuit is closed when the movable contact element engages the stationary contact element.

An object of an embodiment of the present invention is to allow different types of compressible material to be used for deflection of the contact element of the electromagnet switching device.

This object is achieved by a holder for holding a contact element in an electromagnet switching device according to claim 1.

The frame of the holder is closed around and thus the frame is closed on all sides. The compressible material may be disposed inwardly of the frame at a first end of the frame such that the frame surrounds the compressible material. The surface of the first end where the compressible material is disposed thereon can be substantially planar so that various sizes and types of compressible material can be disposed at the first end of the frame. The contact element is removably received between the compressible material and the second end. The second end is opposite the first end. The compressible material applies a biasing force on the contact element. Thus, an electromagnet switching device comprising a holder can be applied for use to control a wide range of supply power by replacing the compressible material in accordance with the desired biasing force on the contact element.

According to yet another embodiment, the frame is formed of a single piece of material. The frame is formed as a single piece, i. E. The frame is made using a single piece of material. Thus, the frame comprises only a single member and provides the advantage of easy separation of the contact element 3 when no part of the frame is separated or removed. Additionally, forming a frame using a single piece of material allows for easy manufacture of the frame.

According to yet another embodiment, the frame includes a first leg and a second leg on both sides of the compressible material, and the first leg and the second leg are connected to the first end and the second end. For example, the first leg may be on one side and the second leg may be on the other side of the compressible material.

According to another embodiment, the first leg and the second leg are parallel. In one embodiment, the first leg and the second leg may be parallel to each other. Advantageously, the first leg and the second leg may be connected to the first end and the second end to form a rectangular cross-section. Thus, the first end and the second end connected by the legs form a closed closed frame.

According to another embodiment, the first end is formed by a first portion extending from the first leg through the first bend and a second portion extending from the second leg through the second bend, the first portion and the second portion extending from the second leg, The two parts overlap. The first leg may be bent to form a first portion through the first bend and the second leg may be bent to form a second portion through the second bend. Advantageously, the first bend and the second bend allow the first portion to be substantially perpendicular to the first leg and the second portion to be substantially perpendicular to the second leg.

According to yet another embodiment, the frame further comprises a third portion extending from the first portion through the third bend, the third portion overlapping the portion of the second leg. In one embodiment, the third portion is formed by bending the first portion at the third bend. The third portion overlaps the second leg to provide additional stiffness at the first end.

According to yet another embodiment, the second end is formed by a transverse section in which the first leg and the second leg are joined. For example, the transverse section may be a U-shaped transverse section incorporating parallel legs.

According to yet another embodiment, the second end further comprises a ridge extending inwardly to support the contact element. The ridge supports the contact element when the contact element is positioned within the frame.

According to yet another embodiment, the compressible material is selected from the group consisting of a spring and an elastomer. In one aspect, springs of various sizes and shapes may be disposed at the first end. In yet another embodiment, elastomers of various sizes may be disposed at the first end. Thus, a spring, an elastomer or a desired elastic material or various sizes and shapes may be disposed at the first end.

Yet another embodiment includes a carrier movable to block and close a power supply circuit in an electromagnet switching device comprising a holder for holding a contact element, the carrier comprising a socket for movably receiving a holder, And a frame, which is displaceable relative to the action of the compressible material to separate the contact element. When the contact element is replaced, the contact element can be easily detachable from the holder.

Yet another embodiment includes an electromagnet switching device including a holder for holding a contact element.

Embodiments of the present invention will now be further described with reference to the embodiments shown in the accompanying drawings.

1A shows a carriage of an electromagnet switching device according to an embodiment.
1B shows an assembly of the carrier 1 and the electromagnet system of FIG. 1A according to one embodiment.
2A illustrates a holder in accordance with one embodiment in detail.
FIG. 2B is a side view of the holder 21 of FIG. 2A along direction X in accordance with one embodiment.
Figure 3 shows a holder for holding a contact element according to an embodiment.
Fig. 4 shows a cross-sectional view of the carrier 1 of Fig. 1a along plane II.

Various embodiments are described with reference to the drawings, wherein like reference numerals are used to refer to like elements throughout. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of one or more embodiments. It may be evident that such embodiments may be practiced without these specific details.

Referring to Fig. 1A, a carrier 1 of an electromagnet switching device is shown according to an embodiment. The contact element 3 is supported in the carrier to move from the circuit break position to the circuit closed position and the contact element 3 moves into contact with the stationary contact element so as to be in the circuit closing position. A fixed contact may be connected to the input power supply.

Fig. 1b shows an assembly of the carrier 1 and the electromagnet system of Fig. 1a according to an embodiment herein. In the illustrated example of Figure 1B, the carrier 1 comprises a column 7 extending vertically upwards. The electromagnet system 8 is supported on the column 7 for operating the carrier. In this embodiment, the electromagnet system 8 is shown as including the electromagnet armatures 9, 13. However, the electromagnet system 8 may be designed in another manner that includes fewer or more electromagnet armatures. Typically, the electromagnet armatures 9, 13 are configured to operate the carrier 1. The electromagnet armature 9 engages the column 7 through a member 11 for transferring the movement of the armature 9 to the carrier 1. The carrier 1 in turn moves the contact element 3 into the circuit closing position. In the example shown in Fig. 1 (b), the electromagnet armature 9 is mechanically engaged with the column via the member 11. However, the electromagnet armature 9 is engaged with the column 7 using other known mechanical means. Another electromagnet armature 13 comprising a coil 17 is also supported on the column 7. Two coils 17 are shown in the illustrated example of FIG. 1B. However, in certain implementations, the magnet armature may comprise only a single coil 17. The coil 17 is energized by supplying a current provided by a supply source. On the excited coil 17, the electromagnet armature 9 is pulled toward the electromagnet armature 13. This movement of the armature 9 is transferred to the carrier 1 and to the contact element 3 for circuit closing movement. However, in other embodiments, the carrier 1 may include a column and an electromagnet armature 9 extending vertically downward, and the electromagnet armor 13 may be supported on the column.

The contact element 3 is supported in a socket 19 extending from the bottom of the carrier 1. The socket 19 receives the holder 21 for holding the contact element 3 so that the holder 21 is actuated in the socket 19. [

2A shows the holder 21 in detail according to an embodiment herein. The holder 21 includes a frame 23 that includes a second leg 27 and a first leg 25, a first end 29 and a second end 31 on two opposite sides. In the embodiment shown in Figure 2, the first leg 25 and the second leg 27 are advantageously parallel to one another and connected at the first end 29 and the second end 31. The first leg 25 and the second leg 27 may be connected to the first end 29 and the second end 31 so that the first leg 25 and the second leg 27 May not be parallel to each other.

Advantageously, the frame 23 can be formed using a single piece of material. For example, the frame 23 may be formed using a single piece of material, and the periphery may be closed. Thus, when no part of the frame is separated or removed, the frame contains only a single part and provides the advantage of easy separation of the contact element 3. For example, a single piece of material may be bent to form the first leg 25 and the second leg 27 and the first end 29 and the second end 31. In one embodiment, the frame 23 may comprise a rectangular cross-section. The formation of the frame 23 using the single piece material makes it possible to easily manufacture the frame 23. In one embodiment, the second end 31 may be formed as a transverse section 33 that joins the first leg 25 and the second leg 27. For example, the transverse section 33 may include a U-shaped transverse section. In one embodiment, the first end 29 may be formed by overlapping portions of the second portion 37 and the first portion 35. The first portion 35 can extend from the first leg 25 through the first bend 41 and the second portion can extend from the second leg 27 through the second bend 43 have. Advantageously, the bends 41, 43 allow the first portion 35 and the second portion 37 to be substantially perpendicular to the first leg 25 and the second leg 27, respectively.

In one embodiment, one of the portions 35, 37 may include a third portion extending through the third bend to overlap the portion of the other leg. For example, the third portion 39 may extend from the first portion 35 through the third bend 45 and may overlap a portion of the second leg 27. For example, the third bent portion 45 allows the third portion to be substantially perpendicular to the first portion 35. A third portion 39, which overlaps the second leg 27, provides additional stiffness to the first end 29. In an alternative embodiment, the first end 29 can be formed by a transverse section that joins the legs 25, 27 and the second end 31 can be formed by the first leg 25 and the second leg And the portion extending through the bent portion may be formed by overlapping.

In another embodiment, the first end 29 and the second end 31 may be formed by a transverse section that joins the legs 25, 27. However, if the first end 29 and the second end 31 are transverse sections, the end of the periphery closed frame 23 can be coupled to either of the legs 25,27. For example, the ends of the frame 23 can be joined at any one of the legs 25, 27 by overlapping one another.

In one embodiment, the compressible material 47 is disposed within the frame 23 at the first end 29. Advantageously, the surface of the first end 29 on which the compressible material 47 is disposed is substantially flat. In one embodiment, the flat surface of the first end 29 on which the compressible material 47 is disposed may be substantially even or flat. In another embodiment, the flat surface of the first end 29 on which the compressible material 47 is disposed may be wrinkled or uneven. For example, corrugation may be designed such that an additional grip is provided to the compressible material 47. [

The flat surface allows different sizes of compressible material to be disposed at the first end 29. In one embodiment, the compressible material 47 may be a spiral spring-like spring. When the surface of the first end 29 is substantially flat, a helical spring formed of wires of different thickness may be disposed within the frame 23. The flat surface of the first end 29 can receive a spring formed of wires of different thicknesses. In the second embodiment, the compressible material 47 may be another material having elastic properties or may be an elastomer. Thus, the substantially flat first end 29 enables different types of compressible material of different thickness to be disposed within the frame 23 of the holder 21. [

When a different sized compressible material can be placed at the first end 29, the electromagnet switch can be configured to be used to control a wide range of supply power by replacing the compressible material. The compressible material can be substituted to increase or decrease the contact pressure applied onto the contact element 3. [ For example, a compressive material capable of applying a relatively high deflection increases the contact pressure applied on the contact element 5. Thus, the contact element 5 can be changed by using different compressible materials for the conditions of deflection that the pressure engaging the stationary contact element is different.

FIG. 2B shows a side view of the holder 21 of FIG. 2A along direction X in accordance with one embodiment. The frame 23 includes a ridge 49 extending inwardly from the second end 31 of the frame 23. The ridge 49 supports the contact element 3 of Fig. 2a when the contact element 3 is positioned inside the frame 23.

Figure 3 shows a holder 21 for holding the contact element 3 according to one embodiment. The contact element 3 is removably received between the second end 31 of the frame 23 of the holder 21 and the compressible material 47. The contact element 3 is held between the second end 31 of the frame 23 and the compressible material 47. The contact element 3 is deflected by the compressible material 47 such that the contact element 3 is held between the second end 31 of the frame and the compressible material 47. The ridge 49 of Figure 2b engages the contact element 3 in order to support the contact element 3 in the frame 23. [ Advantageously, the ridges 49 can support the contact element 3 pivotally.

Figure 4 shows a cross-sectional view of the carrier 1 of Figure Ia according to plane II. The holder (21) is movably received in the socket (19). The socket 19 includes a pair of shoulders 51, 53 for providing a backward support to the compressible material 47. The frame 23 of the holder 21 is displaceable relative to the operation of the compressible material 47 when the shoulders 51 and 53 block the compressible material 47. [ This allows the contact element 3 to be easily separated from the socket 19. Furthermore, the separation of the contact element 3 from the socket 19 does not require any removal of the holder 21 or part of the carrier 1. In addition, the separation of the contact element 3 from the socket 19 does not require the use of any tools.

For example, when a force is applied onto the bottom of the holder 11, the compressible material 47 is blocked by the shoulders 51, 53 and the holder 21 is displaced relative to the operation of the compressible material 47 . Thus, the contact material 3 can be easily separated from the socket 19. [ Moreover, no means is required for the disconnection of the contact element 3 from the socket 19. This allows the contact element 3 to be easily separated.

The embodiments described in the present invention allow other types of compressible materials to be used to deflect the contact elements of the electromagnet switching device. Moreover, a compressible material of a modified size can also be placed inside the frame of the holder. Additionally, the electromagnet switching device may be used to control a wide range of supply power by replacing the compressible material in accordance with the desired biasing force on the contact element. The desired biasing force can be obtained by using a suitable compressible material. Therefore, the biasing force applied on the contact element can be changed to change the contact pressure of the contact element in accordance with the power rating at which the electromagnet switching device is used. Furthermore, the frame can be formed using a single piece of material, thereby enabling easy manufacture of the frame. In addition, the contact element can be easily separated from the socket of the carrier without the need for any special tool. This facilitates easy replacement of the contact element.

While the invention has been described in detail with reference to certain preferred embodiments, it is to be understood that the invention is not limited to the precise embodiments. Rather, many changes and variations may be suggested to one skilled in the art, without departing from the spirit and scope of the invention, in light of the present disclosure, which sets forth the current best mode for practicing the invention. Accordingly, the scope of the present invention is indicated by the following claims rather than by the foregoing description. All changes, modifications and variations within the scope and spirit of the equivalents of the claims shall be considered within the scope of the claims.

Claims (11)

A holder (21) for holding a contact element (3) in an electromagnet switching device,
- a closed frame (23) having a first end (29) and a second end (31)
- a compressible material (47) disposed within the frame at a first end of the frame (23)
Characterized in that the contact element 3 is removably received between the compressible material 47 and the second end 31 and the second end 31 of the frame 23 faces the first end 29 ,
Characterized in that the frame (23) comprises a first leg (25) and a second leg (27) on both sides of the compressible material and the first leg (25) and the second leg (27) 29 and the second end 31,
The frame 23 is formed of a single piece of material,
The first end 29 extends from the second leg 27 through the first portion 35 and the second bend 43 extending from the first leg 25 through the first bend 41. [ The first portion 35 and the second portion 37 are formed by a second portion 37 which is formed by the first portion 35 and the second portion 37,
The frame further comprises a third portion (39) extending from the first portion (35) through the third bend (45) and the third portion (39) Overlapping,
A holder for holding a contact element in an electromagnet switching device.
delete delete The method according to claim 1,
Wherein the first leg 25 and the second leg 27 are parallel,
A holder for holding a contact element in an electromagnet switching device.
delete delete The method according to claim 1,
Said second end portion 31 being defined by a transverse section 33 connecting said first leg 25 and said second leg 27,
A holder for holding a contact element in an electromagnet switching device.
The method according to claim 1,
The second end (31) further comprises a ridge (49) extending inwardly to support the contact element (3)
A holder for holding a contact element in an electromagnet switching device.
The method according to claim 1,
Wherein the compressible material (47) is selected from the group consisting of an elastomer and a spring,
A holder for holding a contact element in an electromagnet switching device.
1. A carrier (1) operative to close and shut off a power supply circuit within an electromagnet switching device,
A holder (21) for holding the contact element (3) according to any one of claims 1, 4 and 7 to 9;
A socket (19) for movably receiving the holder (21);
And a shoulder (51, 53) formed on the socket (19) to act corresponding to the compressible material (47)
The frame 23 can be displaced relative to the operation of the compressible material 47 for separating the contact element 3,
A carrier that operates to close and shut off the power supply circuit within the electromagnet switching device.
As an electromagnet switching device,
A holder (21) for holding a contact element (3) according to any one of claims 1, 4 and 7 to 9,
Electromagnet switching device.

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