KR200247019Y1 - Magnetic contactor improving the structure of contacting two cores - Google Patents

Abstract

The present invention relates to an electromagnetic contactor with improved iron core contact structure.

The magnetic contactor with improved iron contact structure according to the present invention is installed on a fixed contact fixed to an upper case forming an external appearance and a crossbar reciprocating up and down at the center of the upper case to supply power by connecting or shorting with the fixed contact. And a movable contact fixed to the lower side of the movable contact core which is fixed to the lower side of the crossbar and is provided with a return spring interposed therebetween, and is fixed to the lower case and the coil is wound. A magnetic field is formed when power is applied or cut off to the magnetic contactor to connect and short-circuit the fixed contact point and the movable contact point by contacting and detaching the movable iron core to the fixed iron core, wherein the fixed iron core is the movable iron core. The central portion in contact with the spaced apart from the contact surface with the movable iron core, the fixed Spaced center portion of the iron core is characterized in that the shielding cap is coated as much as the spaced space of the fixed iron core and the movable iron core.

Therefore, there is an effect of shortening the process time, reducing the manufacturing cost, extending the mechanical life.

Description

Magnetic contactor improving the structure of contacting two cores}

The present invention relates to an electromagnetic contactor with an improved iron core contact structure, and more particularly, to improve the mechanical contact life of the electromagnetic contactor by improving the contact structure between the fixed iron core and the moving iron core of the magnetic contactor used to apply or cut power to a motor or the like. The present invention relates to an electromagnetic contactor having an improved iron core contact structure.

1 is a cross-sectional view for explaining the structure of a general magnetic contactor.

In general, a magnetic contactor is an electric device which is electrically connected to a motor or the like and used to apply or cut off power, and its operation principle is usually a contact between the movable contact 8 and the fixed contact 7 as shown in FIG. And the power is applied or cut off to the motor or the like through the separation.

Of course, the movable contact 8 is coupled to the crossbar 10 which is reciprocated up and down and the movable bar 4 is coupled to the crossbar 10 while the coil 5 wound opposite the movable bar 4. In addition, when the fixed iron core 3 is located, and power is applied to the coil 5, the movable iron core 4 is lowered by the suction force between the fixed iron core 3 and the movable iron core 4 so that the movable contact 8 and the fixed contact ( 7) are made to be in contact with each other, on the contrary, if power is not applied to the coil 5, the movable iron core 4 is raised again by the restoring force of the return spring 6, so that the movable contact 8 and the fixed contact 7 Will deviate from each other.

In addition, reference numerals 1, 2, and 9 are arc boxes for preventing arc generation due to contact between the upper case, the lower case, the movable contact and the fixed contact, respectively, which form the exterior of the magnetic contactor. Secondary configuration is omitted.

2 is a perspective view showing an E-I type iron core contact structure of a conventional magnetic contactor.

2 illustrates a structure slightly different from the iron core contact structure shown in FIG. 1. The so-called E-I type iron core contact structure is fixed type core E type and movable core type I type.

Meanwhile, the iron core contact structure shown in FIG. 2 prevents contact surface wear due to frequent contact between the movable iron core 12 and the fixed iron core 11 as shown in FIG. 1, and is fixed with the movable iron core 12, which is a magnetic body. In order to solve the problem that the movable core 12 is not smoothly released from the fixed core 11 despite the restoring force of the return spring 6 due to the direct contact of the iron core 11, the blocking plate on the contact surface of the movable core 12 The structure in which (13) is bonded is shown.

At this time, the blocking plate 13 is joined to the contact surface of the movable iron core 12 by welding, the blocking plate 13 is usually used for nonmagnetic material such as stainless steel (stainless steel).

However, the iron core contact structure as shown in FIG. 2 is intended to join the blocking plate by welding on the contact surface of the movable iron core. If the magnetic contactor is used for a long time, the blocking plate 13 may fall off from the movable core 12 due to a poor state of the welded portion due to frequent contact and vibration between the movable core 12 and the fixed iron core 11. The problem is that the localized parts are broken, and when the blocking plate 13 is worn, the movable iron core 12 is fixed.

Even if it is not released from (11), it is accompanied by the fatal problem that the power short circuit does not occur due to the overload.

In addition, in order to precisely weld the blocking plate 13 to the movable core by welding or the like, it requires a careful work by a skilled worker, and thus, a process time is required and the defect rate is also high.

The purpose of the present invention is to improve the contact structure between the fixed iron core and the moving iron core of the magnetic contactor by the smooth contact and separation of the movable contact and the fixed contact can be faithfully performed the original function of the magnetic contactor, vibration, noise, heat generation It is possible to extend the mechanical life by preventing the deterioration of the coil due to, and to provide an electromagnetic contactor with an improved iron core contact structure that can be shortened the process time and the production cost by simple manufacturing.

1 is a cross-sectional view for explaining the structure of a general magnetic contactor.

2 is a perspective view showing an E-I type iron core contact structure of a conventional magnetic contactor.

3 is a perspective view showing the iron core contact structure of the magnetic contactor according to the present invention.

※ Explanation of symbols for main parts of drawing

1: upper case 2: lower case

3, 11, 14: fixed core 4, 12, 16: movable core

5: coil 6: return spring

7: fixed contact point 8: movable contact point

9: arcbox 10: crossbar

13: blocking plate 15: blocking cap

17: rivet 18: hole

The magnetic contactor with improved iron core contact structure according to the present invention for achieving the above object is installed on the fixed contact fixed to the upper case forming the appearance and the crossbar reciprocating up and down at the center of the upper case and the fixed contact A fixed iron core fixed to a movable contact for applying or disconnecting power by a connection or a short circuit and fixed to a lower case in a state opposite to the movable iron core with a return spring interposed therebetween and a return spring interposed therebetween, and the coil being wound. And a magnetic field formed as power is applied or cut off to the coil, wherein the fixed contact point and the movable contact point are connected and short-circuited by contacting and detaching the movable iron core to the fixed iron core. The fixed iron core has a central portion in contact with the movable iron core as a contact surface with the movable iron core. Spaced apart from the center portion of the fixed iron core, characterized in that the shielding cap is coated as much as the spaced space of the fixed iron core and the movable iron core.

At this time, the movable iron core is made of a plurality of thin plate cores are laminated to each other are coupled by rivets, the blocking cap is formed in both ends of the flat plate is bent toward the same direction and the bent ends of the rivet is inserted into the hole It is formed may be coated on the central portion of the movable iron core in a structure that is fixed through the rivet.

On the other hand, the blocking cap is preferably made of stainless steel that is a non-magnetic material.

Hereinafter, with reference to the accompanying drawings, a specific embodiment of the present invention will be described in detail.

3 is a perspective view showing the iron core contact structure of the magnetic contactor according to the present invention.

The magnetic contactor having improved iron core contact structure according to the present invention is spaced apart from the contact surface of the movable iron core 16 by the center portion of the fixed iron core 14 to cover the blocking cap 15 by the space thereof. It is made up of structure.

The movable iron core 16 is coupled to the crossbar 10 as shown in FIG. 1 as described above, and is configured to reciprocate between the upper case 1 and the lower case 2.

The fixed iron core 14 is spaced apart from the contact surface with the movable iron core 16 at the center portion in contact with the movable iron core 16. This is to reduce the contact surface between the fixed iron core 14 and the movable iron core 16 so that the movable iron core 16 can be easily released from the fixed iron core 14.

However, the structure in which the central portion of the fixed iron core 14 is simply spaced apart from the contact surface of the movable iron core 16 may cause a problem that other contact surfaces of the fixed iron core 14 may be worn out and contact evenly spaced center portions due to long use of the magnetic contactor. In this case, since the release of the movable iron core 16 is impossible, and the power shutoff function of the magnetic contactor may be lost, the blocking cap 15 as shown in FIG. Cover.

The blocking cap 15 covers the spaced apart central portion of the fixed core 16 so that the strength of the magnetic field between the fixed core 16 and the movable core 12 is kept constant, instead of the fixed core 16 and the movable core. By reducing the area of the contact surface (12) in close contact with each other so that the fixed iron core 16 and the movable iron core 16 in close contact with each other can be released more smoothly.

Of course, the release of the movable iron core 16 is released by the restoring force of the return spring 6 as shown in Figure 1 as described above, the material of the blocking cap 15 is a non-magnetic stainless steel It is preferable.

On the other hand, the more preferable structure of the fixed iron core 14 and the blocking cap 15 is as follows.

The fixed iron core 14 has a configuration in which a suction force is generated between the movable iron core 16 under the influence of a magnetic field inducing from the coil 5 as shown in FIG. Since it has a correlation with the contact area which makes contact, it is preferable that the structure consists of a laminated form of several thin iron cores. In this case, the manufacturer can determine the desired specification of the magnetic contactor by determining the number of thin iron cores in consideration of the specification and contact area of the coil 5, and if the number is determined, considering the convenience and cost of manufacturing, The thin iron core is preferably fixed to each other using a rivet 17.

At this time, the blocking cap 15 needs to have a shape so as to be more easily installed in the center portion of the plurality of riveted thin plate cores. That is, the blocking cap 15 is formed so that both ends of the flat thin plate to be bent in the same direction as shown in Figure 3 and the rivets by forming a hole 18 into which the rivets 17 are inserted in the bent ends It is desirable to have a structure so that it can be more easily installed in the center of the plurality of thin plate iron core.

Therefore, according to the present invention, the movable iron core can be smoothly released from the fixed iron core through a blocking plate installed at the center contact surface of the fixed iron core, so that the original function of the magnetic contactor can be faithfully performed, and the production and installation of the blocking plate is also simple. The process time can be shortened and the manufacturing cost can be reduced, and wear between the moving core and the fixed iron core can be prevented, thereby extending the mechanical life of the magnetic contactor.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended utility model claims. will be.

Claims (3)

A fixed contact fixed to an upper case forming an external appearance, a movable contact installed at a crossbar reciprocating up and down at the center of the upper case, and a movable contact to connect or short-circuit power with the fixed contact, and to a lower portion of the crossbar. It is fixed and includes a movable iron core with a return spring interposed, and a fixed iron core fixed to the lower case in the state opposite to the movable iron core, the coil is wound, the magnetic field is formed when the power is applied or disconnected to the coil In the magnetic contactor is made so that the fixed contact and the movable contact is connected and short-circuited by the contact and separation of the movable iron core to the fixed iron core, The fixed iron core, A central portion in contact with the movable core is spaced apart from the contact surface with the movable core, In the center portion of the fixed iron spaced apart, Electromagnetic contactor with improved iron core structure, characterized in that the shielding cap is coated as much as the spaced space between the fixed iron core and the movable iron core. The method of claim 1, The movable core, A plurality of thin iron cores are laminated to each other and made of a combination of rivets, The blocking cap, Both ends of the planar thin plate form a shape bent toward the same direction, the iron core is characterized in that the cover is formed in the center portion of the movable iron core in a structure that is fixed to the rivet is formed through the hole to be inserted into the rivet Magnetic contactor with improved contact structure. The method according to claim 1 or 2, The blocking cap, Magnetic contactor with improved iron core structure, characterized in that the non-magnetic stainless steel.