KR101643043B1 - Contact apparatus and electromagnetic contactor using the same - Google Patents

Abstract

SUMMARY OF THE INVENTION It is an object of the present invention to provide a contact device for facilitating elongation of an arc occurring at the time of opening and an electromagnetic contactor using the contact device.
A contact device (100) having a movable contactor (130) connected and detachably arranged with respect to a pair of fixed contacts (106a, 106b), wherein the fixed contactor includes an upper plate portion (116) And a connecting plate portion (117) for connecting the upper plate portion and the contact lug portion in parallel with each other while maintaining a predetermined gap therebetween. The connecting plate portion (117) is formed in a U- Is disposed between the upper plate portion and the contact portion of the pair of stationary contactors so as to be connectable with and detachable from the contact portion of the stationary contactor and interrupts the movement of the arc to the contact portion of the contact portion (118) The contact lips are disposed without generating the stepped portion.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a contact device and an electromagnetic contactor using the contact device,

The present invention relates to a contact device in which a movable contact is arranged to be connectable and detachable with respect to a fixed contact, and an electromagnetic contactor using the contact device.

An electromagnetic contactor for opening and closing a current path includes a pair of stationary contacts having a C-shaped portion which is disposed at a predetermined distance and opens to the inside facing each other, and a pair of stationary contacts, An insulating cylinder is disposed inside the contact storage case so as to surround a pair of fixed contactors and movable contacts, and a pair of stationary contactors and movable contacts And the arc-extinguishing space is formed outside the extending direction of the movable contact of the magnet accommodating portion (see, for example, patent See Document 1).

Patent Document 1: JP-A-2012-243592

However, in the conventional example described in Patent Document 1, the pair of stationary contacts are formed of the C-shaped portion and the supporting conductor portion for supporting the C-shaped portion, and the C-shaped portion and the supporting conductor portion are joined by soldering or the like.

Here, when the contact lips are disposed at the contact portion of the fixed contact with the movable contact to prevent the contact wear and the longevity increase, the height of the contact lips from the upper surface of the lower plate portion is increased and the step portion is generated. If a step is formed between the contact lip and the lower plate portion as described above, it is difficult to elongate the stepped portion of the arc contact lip that occurs when the movable contact is spaced apart from the stationary contactor, It causes heavy consumption, long arc interruption time, and unstable interception. Therefore, when the contact lips are provided, there is an unresolved problem that the arc breaking performance is greatly reduced as compared with the case where the contact lips are not provided.

DISCLOSURE OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above-mentioned unsolved problems of the conventional art, and it is an object of the present invention to provide a contact device capable of preventing an arc clogging and using an arc, And the like.

In order to achieve the above object, one aspect of the contact apparatus according to the present invention is a contact apparatus in which a movable contact is arranged to be connectable and detachable with respect to a pair of fixed contacts. The contact device is characterized in that the pair of fixed contacts comprises a top plate portion and a contact plate portion disposed parallel to the top plate portion and spaced apart from the top plate portion at a predetermined interval and a connecting plate portion connecting the top plate portion and the contact portion, Wherein said movable contact is disposed between said upper plate portion and said contact portion of said pair of stationary contactors so as to be connectable with and detachable from said contact portion of said contact contact, An arc guide portion extending in a direction away from the movable contact in the direction of movement of the arc from the outer peripheral edge of the annular support portion, the arc guide portion being provided at a position opposite to the contact point, the arc guide portion supporting the contact lip against the contact point of the movable contact; And a contact lip support member is disposed.

Further, the electromagnetic contactor according to the present invention includes the above-described contact device and an electromagnet unit for operating the movable contact of the contact device.

According to the present invention, since the contact lugs arranged on the contact cords of the fixed contacts are supported by the annular support portions and the arc guide portions extending in the arc moving direction are formed on the annular support portions, It is possible to quickly move the arc generated between the ribs to the arc guide portion through the annular support portion, thereby suppressing consumption of the vicinity of the contact rib due to the arc at the time of interruption and shortening the arc extension time . Further, since the arc foot of the arc is induced in the arc guiding portion, the arc can be surely driven in a desired driving direction without deviating from the driving direction of the arc.

Further, since the electromagnetic contactor is constituted by using the contact device having the above-mentioned effect, it is possible to prevent the arc from being stuck on the contact lip provided on the fixed contact, to cut off the high voltage and the large current, An electromagnetic contactor can be provided.

1 is a cross-sectional view showing an embodiment of an electromagnetic contactor according to the present invention.
2 is a sectional view of the contact device on the line AA in Fig.
3 is a perspective view showing a C-shaped contact portion of the fixed contact.
4 is a cross-sectional view taken along line BB in Fig.
5 is an explanatory view for explaining a state of occurrence of an arc;
Fig. 6 is a sectional view similar to Fig. 2 showing a second embodiment of the present invention; Fig.
7 is a perspective view showing a C-shaped contact portion according to the second embodiment;
Fig. 8 is a sectional view similar to Fig. 2 showing a third embodiment of the present invention; Fig.
9 is a perspective view showing a C-shaped contact portion of the third embodiment.
Fig. 10 is a sectional view similar to Fig. 2 showing a fourth embodiment of the present invention. Fig.
11 is a perspective view showing a C-shaped contact portion of the fourth embodiment.
12 is a cross-sectional view as in Fig. 2 showing a fifth embodiment of the present invention.
13 is a perspective view showing a C-shaped contact portion of the fifth embodiment.
14 is a cross-sectional view similar to FIG. 2 showing a sixth embodiment of the present invention.
15 is a perspective view showing a C-shaped contact portion of the sixth embodiment;
Fig. 16 is a sectional view similar to Fig. 2 showing a seventh embodiment of the present invention; Fig.
17 is a perspective view showing a C-shaped contact portion of the seventh embodiment;
18 is a cross-sectional view as in Fig. 2 showing an eighth embodiment of the present invention.
19 is a perspective view showing a C-shaped contact portion of the eighth embodiment;
20 is a perspective view showing a modified example of the movable contactor applicable to the present invention.
FIG. 21 is a view showing a modification of the contact point device applicable to the present invention, wherein (a) is a sectional view and (b) is a perspective view.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings.

Fig. 1 is a cross-sectional view showing an example of an electromagnetic switch according to the present invention, and Fig. 2 is a cross-sectional view of the contact device on the line A-A in Fig. Fig. 3 is a perspective view showing a C-shaped contact portion, and Fig. 4 is a sectional view taken on line B-B in Fig.

1 to 4, reference numeral 10 denotes an electromagnetic contactor. The electromagnetic contactor 10 includes a contact device 100 having a contact mechanism disposed therein and an electromagnet unit 200 for driving the contact device 100 have.

1 to 4, the contact point device 100 has a contact point housing case 102 for housing the contact point device 101 therein. The contact storage case 102 includes a metal sheath 104 having a flange portion 103 protruding outward at a lower end portion of a metal and a flat ceramic insulating plate 103 for closing the upper end of the metal sheath 104. [ And an insulated cylinder 140 disposed on the inner circumferential side of the metal cylinder 104. The stationary contact supporting insulating substrate 105 is made of an insulating material,

The flanges 103 of the metal cylinders 104 are fixed to the upper magnetic yoke 210 of the electromagnet unit 200 to be described later.

The fixed contact supporting insulating substrate 105 is formed with through holes 106 and 107 through which a pair of stationary contactors 111 and 112 are inserted at a predetermined distance in the center.

1, the contact mechanism 101 includes a pair of stationary contactors (not shown) fixedly inserted through the through holes 106 and 107 of the stationary contact supporting insulating substrate 105 of the contact storing case 102 111 and 112, respectively. Each of the stationary contacts 111 and 112 has a supporting conductor portion 114 having a flange portion 113 protruding outward at an upper end penetrating through the through holes 106 and 107 of the fixed contact supporting insulating substrate 105, And a C-shaped contact portion 115 connected to the supporting conductor portion 114 and disposed on the lower surface side of the fixed contact supporting insulating substrate 105 and opened on the inner side.

The C-shaped contact portion 115 includes an upper plate portion 116 extending outward along the lower surface of the fixed contact supporting insulating substrate 105, a connecting plate portion 117 extending downward from the outer end of the upper plate portion 116, And a contact cradle 118 extending from the lower end side of the connecting plate portion 117 in parallel with the upper plate portion 116 in the direction facing the fixed contacts 111 and 112, Respectively.

The contact strip 118 is provided with a contact strip 119 at an upper surface position opposite to the contact portion 130a of the movable contact 130 to be described later. The contact lips 119 are formed in a flat cylindrical shape and are joined to the contact portion 118 by a bonding method such as soldering.

A contact lip support member 120 formed of a nonmagnetic metal such as copper, tungsten, aluminum, brass or the like for supporting the contact lip 119 is joined to the periphery of the contact lip 119 by a bonding method such as soldering . 3, the contact lip support member 120 includes an annular support portion 120a that covers the periphery of the contact lip 119 and an arc-shaped support portion 120b in which the arc moving direction of the annular support portion 120a, And an arc guiding portion 120b extending in a direction orthogonal to the extending direction of the contactor 130. [ The arc guide portion 120b passes the upper surface of the contact portion 118 and extends to the vicinity of the lower surface of the contact portion 118 through the side surface of the contact portion 118. [ The contact lip support member 120 having the above-described structure is joined to the contact portion 118 by a joining means such as soldering at the same time as the contact lip 119. At this time, the stepped portion 118a is formed at the mounting position of the contact lip supporting member 120 on the contact portion 118, and the contact lip supporting member 120 can be positioned by the stepped portion 118a .

The supporting conductor portion 114 and the C-shaped contact portion 115 are formed such that the pin 114a protruding from the lower end surface of the supporting conductor portion 114 is inserted through the upper plate portion 116 of the C- For example, by soldering or the like while being inserted into the hole 116a. The fixing of the supporting conductor portion 114 and the C-shaped contact portion 115 may be performed not by soldering or the like but by fitting the pin 114a to the through hole 120 or forming a male thread on the pin 114a, The female screw may be formed in the through hole 120 to screw them together.

The C-shaped contact portions 115 of the fixed contacts 111 and 112 are respectively fitted with an insulating cover 121 made of a synthetic resin material for insulation with the arc. The insulating cover 121 covers the inner circumferential surfaces of the top plate portion 116 and the connecting plate portion 117 of the C-shaped contact portion 115. [

As described above, by inserting the insulating cover 121 on the C-shaped contact portion 115 of the fixed contacts 111 and 112, only the upper surface side of the contact cradle 118 is exposed on the inner peripheral surface of the C-shaped contact portion 115 And serves as a contact portion 118a.

The movable contactor 130 is disposed so that both ends of the fixed contactors 111 and 112 are disposed in the C-shaped contact portion 115. [ The movable contactor 130 is supported on a connection shaft 131 fixed to the movable plunger 215 of the electromagnet unit 200 to be described later. The movable contact 130 has a concave portion 132 protruding downward in the vicinity of the connecting shaft 131 at the center and a through hole 133 (not shown) through which the connecting shaft 131 is inserted into the concave portion 132 Is formed.

The connecting shaft 131 is formed with a flange portion 131a protruding outward at its upper end. The through hole 133 of the movable contactor 130 is inserted through the contact shaft 134 and the upper end of the contact spring 134 is inserted into the flange portion 131a, And the movable contact 130 is positioned, for example, by the C-ring 135 so as to obtain a pressing force determined by the contact spring 134.

The movable contactor 130 maintains the predetermined distance between the contact portions at both ends and the contact portion 118a of the contact portion 118 of the C-shaped contact portion 115 of the fixed contacts 111 and 112 in the released state It becomes separated. The movable contacts 130 are arranged such that contact portions at both ends of the movable contacts 130 are brought into contact with the contact portions 118a of the contact portions 118 of the C contact portions 115 of the fixed contacts 111 and 112, ) At a predetermined contact pressure.

1 to 3, the insulating cylinder 140 constituting the contact storage case 102 is formed in an angular cylinder shape having a floor with an open top made of synthetic resin, for example, and the insulating cylinder 140 The magnet accommodating pockets 141 and 142 protruding inward are formed at positions opposed to the side surfaces of the movable contactor 130 of the movable contact 130. [ Arc permanent magnets 143 and 144 are inserted and fixed to the magnet storage pockets 141 and 142, respectively.

The arc-extinguishing permanent magnets 143 and 144 are magnetized such that their opposing surfaces in the thickness direction are the same polarity, for example, N poles. Arc seal chambers 145 and 146 are formed on the outer sides of the magnet storage pockets 141 and 142 in the left and right directions, respectively.

1, the electromagnet unit 200 has a flat U-shaped magnetic yoke 201 as viewed from the side, and a cylindrical auxiliary yoke 201 is provided at a central portion of the bottom plate portion 202 of the magnetic yoke 201. [ (203) are fixed. A spool 204 as a plunger driving portion is disposed outside the cylindrical auxiliary yoke 203.

The spool 204 includes a central cylindrical portion 205 through which the cylindrical auxiliary yoke 203 is inserted, a lower flange portion 206 projecting radially outward from the lower end of the central cylindrical portion 205, And an upper flange portion 207 protruding radially outward from a slightly lower side than the upper end of the cylindrical portion 205. An excitation coil 208 is wound around the accommodating space formed by the central cylindrical portion 205, the lower flange portion 206, and the upper flange portion 207.

An upper magnetic yoke 210 is fixed between upper ends of the magnetic yoke 201, which are open ends. The upper magnetic yoke 210 has a through hole 210a formed at the center thereof and opposed to the central cylindrical portion 205 of the spool 204. [

The movable plunger 215 in which the return spring 214 is disposed between the bottom portion and the bottom plate portion 202 of the magnetic yoke 201 is vertically slidable in the central cylindrical portion 205 of the spool 204 Respectively. The movable plunger 215 is formed with a circumferential flange portion 216 projecting radially outward from an upper end protruding upward from the upper magnetic yoke 210.

An annular permanent magnet 220 formed in an annular shape is fixed on the upper surface of the upper magnetic yoke 210 so as to surround the flange portion 216 of the movable plunger 215. The annular permanent magnet 220 has a rectangular shape and has a through hole 221 surrounding the flange portion 216 at its center. The annular permanent magnet 220 is magnetized such that its upper end is, for example, the N pole and the lower end thereof is the S pole in the up and down direction, that is, in the thickness direction. The shape of the through hole 221 of the annular permanent magnet 220 may be a shape matching the shape of the flange portion 216 and the shape of the outer peripheral surface may be any shape such as a circle or a square. Likewise, the outer shape of the annular permanent magnet 220 is not limited to a rectangular shape, but may be any shape such as a circle, a hexagon, or the like.

An auxiliary yoke 225 having the same outer shape as the annular permanent magnet 220 is fixed to the upper end surface of the annular permanent magnet 220.

1, the movable plunger 215 is covered with a cylindrical cap 230 made of a non-magnetic material and having a bottom, and extends radially outward at the open end of the cap 230 The formed flange portion 231 is seal-bonded to the lower surface of the upper magnetic yoke 210. As a result, a sealed container is formed in which the contact housing case 102 and the cap 230 communicate with each other through the through hole 210a of the upper magnetic yoke 210. [ A gas such as a hydrogen gas, a nitrogen gas, a mixed gas of hydrogen and nitrogen, air, SF _6, or the like is sealed in a sealed container formed of the contact storage case 102 and the cap 230.

Next, the operation of the above embodiment will be described.

It is assumed that the fixed contactor 111 is connected to a power source for supplying a large current, for example, and the fixed contactor 112 is connected to a load.

In this state, it is assumed that the exciting coil 208 in the electromagnet unit 200 is in the non-excited state, and the electromagnet unit 200 is in the released state in which the exciting force to lower the movable plunger 215 is not generated. In this released state, the movable plunger 215 is urged upward by the return spring 214, away from the upper magnetic yoke 210.

At the same time, a suction force by the magnetic force of the annular permanent magnet 220 acts on the auxiliary yoke 225, and the peripheral flange portion 216 of the movable plunger 215 is sucked. Therefore, the upper surface of the peripheral flange portion 216 of the movable plunger 215 is in contact with the lower surface of the auxiliary yoke 225.

The contact portion 130a of the movable contactor 130 of the contact mechanism 101 connected to the movable plunger 215 via the connecting shaft 131 is brought into contact with the contact portion 118a of the fixed contacts 111 and 112, As shown in FIG. For this reason, the current path between the fixed contacts 111 and 112 is in the cut-off state, and the contact mechanism 101 is in the open state.

As described above, in the release state, both the urging force of the return spring 214 and the urging force of the annular permanent magnet 220 act on the movable plunger 215, so that the movable plunger 215 vibrates from the outside It is possible to surely prevent the malfunctioning from occurring without inadvertently lowering due to impact or the like.

When the exciting coil 208 of the electromagnet unit 200 is excited from this releasing state, an exciting force is generated in the electromagnet unit 200 so that the movable plunger 215 is pressed against the urging force of the return spring 214, And presses downward against the suction force of the pressing member 220.

The movable contactor 130 connected to the movable plunger 215 via the connection shaft 131 also descends and the contact portion 130a of the movable contactor 130 contacts the fixed contacts 111 and 112 Contact with the contact portion 118a of the contact spring 134 by the contact pressure of the contact spring 134.

This results in a closed state in which a large current of the external power supply source is supplied to the load through the fixed contacts 111, the movable contacts 130, and the fixed contacts 112.

At this time, an electromagnetic repulsive force is generated between the fixed contacts 111 and 112 and the movable contactor 130 in the direction of opening the movable contactor 130.

1, the C-shaped contact portions 115 are formed by the upper plate portion 116, the connecting plate portion 117, and the contact portion 118. Therefore, the fixed contacts 111, A reverse current flows in the upper plate portion 116 and the contact portion 118 and the movable contactor 130 opposed thereto.

Therefore, from the relationship between the magnetic field formed by the contact bobbins 118 of the fixed contacts 111 and 112 and the current flowing through the movable contactor 130, the movable contactor 130 is fixed to the fixed contacts 111 and 112 by the Fleming left- The Lorentz force can be generated by pressing firmly on the contact portion 118a of the contact portion 112a.

This Lorentz force makes it possible to resist the electromagnetic repulsive force in the opening direction generated between the contact portion 118a of the stationary contactors 111 and 112 and the contact portion 130a of the movable contactor 130, It is possible to reliably prevent the contact portion 130a of the contact portion 130a from being opened.

Therefore, the urging force of the contact spring 134 for supporting the movable contactor 130 can be reduced, and accordingly, the thrust generated by the excitation coil 208 can be reduced, and the overall configuration of the electromagnetic contactor can be reduced .

When the supply of electric current to the load is interrupted from the closed state of the contact mechanism 101, excitation of the excitation coil 208 of the electromagnet unit 200 is stopped.

As a result, the movable plunger 215 is raised by the urging force of the return spring 214 and the peripheral flange portion 216 is lifted by the force of the movable plunger 215, The attracting force of the annular permanent magnet 220 increases as it approaches the auxiliary yoke 225.

As the movable plunger 215 is lifted, the movable contactor 130 connected via the connection shaft 131 rises. The movable contactor 130 is in contact with the fixed contacts 111 and 112 while the contact pressure is applied by the contact spring 134. [ Thereafter, when the contact pressure of the contact spring 134 is lost, the movable contactor 130 is separated from the stationary contactors 111 and 112 by an open state.

An arc is generated between the contact lips 119 of the fixed contacts 111 and 112 and the contact portion 130a of the movable contactor 130 and the electric current continues to flow through the arc.

At this time, since the insulating cover 121 covering the upper plate portion 116 and the connecting plate portion 117 of the C-shaped contact portion 115 of the fixed contacts 111 and 112 is mounted, Between the contact portion 118a of the movable contact 130 and the contact portion 130a of the movable contact 130. [ Therefore, the generation state of the arc can be stabilized, and the arc can be increased to the arc arc chamber (145 or 146) so that the arc extinguishing performance can be improved.

Since the upper plate portion 116 and the connecting plate portion 117 of the C-shaped contact portion 115 are covered with the insulating cover 121, both ends of the movable contactor 130 and the upper plate portion 116 of the C- And the connecting plate portion 117 can secure an insulation distance and the height of the movable contact 130 in the moving direction can be shortened. Therefore, the contact point device 100 can be downsized.

On the other hand, since the opposing pole faces of the arc-extinguishing permanent magnets 143 and 144 are N poles and the outer sides thereof are S poles, the magnetic fluxes emerging from these N poles are shown in FIG. 5 Arc generating portions of the opposing portions of the contact portions 118a of the stationary contactor 111 and the contact portions 130a of the movable contactor 130 of the permanent magnets 143 and 144 for the arc arc are connected to the movable contactor 130, A magnetic field is formed by reaching the S pole across from the inside to the outside in the longitudinal direction of the yoke. Similarly, the arc generating portion of the contact portion 118a of the fixed contactor 112 and the contact portion 130a of the movable contactor 130 reaches the S pole across the outside in the longitudinal direction of the movable contactor 130, .

Therefore, the magnetic fluxes of the arc-extinguishing permanent magnets 143 and 144 are all provided between the contact portion 118a of the fixed contactor 111 and the contact portion 130a of the movable contactor 130 and the contact portion of the fixed contactor 112 The movable contactor 130 and the contact portion 130a of the movable contactor 130 cross each other in the longitudinal direction of the movable contactor 130 in opposite directions.

5 (b), the current I is applied between the fixed contact 111 and the contact 130a of the fixed contact 111 and the movable contact 130, To the side of the movable contactor 130, and the direction of the magnetic flux? Is directed from the inside toward the outside. 5 (c), the contact portion 118a of the stationary contactor 111 and the contact portion 118a of the movable contactor 130 are perpendicular to the longitudinal direction of the movable contactor 130, And a large Lorentz force F toward the arc furnace chamber 145 is applied.

2, the arc 149 generated between the contact portion 118a of the stationary contactor 111 and the contact portion 130a of the movable contactor 130 is fixed by the Lorentz force F, The arc is extended from the side of the contact portion 118a of the contactor 111 to the inner wall of the arc furnace chamber 145 and is greatly extended to reach the upper surface side of the movable contactor 130 along the inner wall.

At this time, the contact ribs 119 of the fixed contactor 111 are surrounded by the annular support portion 120a of the contact lip support member 120, and the arc induction portion And the arc guide portion 120b extends to a position where it reaches the bottom surface beyond the side surface of the contact piece portion 118. As shown in FIG.

The arc generated between the contact portion 130a of the movable contactor 130 and the contact lips 119 at the time of opening is moved to the arc chamber 145 side by the Lorentz force so as to be extended to the arc arc chamber 145 . As the arc is increased, the arc foot moves through the arc guide portion 120b to the lower end of the arc guide portion 120b. Finally, as shown in Fig. 2, the arc arc portion 145 and extends to a predetermined arc length reaching the upper end of the side surface of the movable contactor 130 through the lower side of the insulating cover 121. [ As described above, when the arc length reaches the predetermined arc length, the arc voltage increases and the arc is extinguished. At this time, an arc generated between the contact lips 119 and the contact portions 130a of the movable contactor 130 at the time of opening makes a deadlock between the contact lips 119 and the contact portions 130a of the movable contactor 130 The arc extension time can be shortened sufficiently as compared with the case where the contact rib support member 120 does not exist and the arc length of the arc induction portion 120a can be sufficiently shortened, The blocking performance can be improved.

5 (b), the current I is supplied from the side of the movable contactor 130 to the stationary contactor 112 (see FIG. 5 (b)) between the contact portion 118a of the stationary contactor 112 and the movable contactor 130. On the other hand, And the direction of the magnetic flux phi is the right direction from the inside to the outside. Therefore, by the Fleming's left-hand rule, the arc-quenching chamber 145 is perpendicular to the longitudinal direction of the movable contactor 130 and perpendicular to the opening and closing directions of the contact portion 118a of the stationary contactor 112 and the movable contactor 130, A large Lorentz force F is applied.

This Lorentz force F causes an arc generated between the contact lips 119 of the stationary contactor 112 and the contact portion 130a of the movable contactor 130 to move from the upper surface side of the movable contactor 130 to the arc- (145). Since the contact lips 119 are also supported by the contact lip support member 120 and the arc inducing portion 120b is formed on the contact lip support member 120, The arc rapidly expands and is extinguished as in the case of the contact portion 130a of the movable contact 119 and the movable contactor 130. [

On the other hand, when the electromagnetic contactor 10 is in the closed state and in the state in which the reverse current flows from the load side to the DC power source side, the direction of the current in the above-described FIG. 5 (b) And the Lorentz force F acts on the side of the arc small-capacity chamber 146, and the arc is extended toward the arc small-capacity chamber 146, the same small-volume function is exerted.

At this time, since the arc-extinguishing permanent magnets 143 and 144 are disposed in the magnet-accommodating pockets 141 and 142 formed in the insulating cylinder 140, the arcs directly contact the permanent magnets 143 and 144 . Therefore, the magnetic properties of the arc-extinguishing permanent magnets 143 and 144 can be stably maintained, and the blocking performance can be stabilized.

Further, since the insulated cylinder 140 can cover and insulate the inner circumferential surface of each metal cylinder 104, it is possible to reliably interrupt the current without short-circuiting the arc during current interruption.

Further, since the insulating function, the positioning function of the arc-extinguishing permanent magnets 143 and 144, and the protecting function of the arc-extinguishing permanent magnets 143 and 144 from the arc can be performed in one insulating cylinder 140, The cost can be reduced.

As described above, according to the first embodiment, the contact lips 119 are formed on the upper surface of the contact portion 118 of the fixed contacts 111 and 112, which face the contact portion 130a of the movable contact 130, The contact lips 119 and the contact portion 130a of the movable contactor 130 are held in contact with each other at the time of opening the contact lips 119 by the contact lip portion 120 having the arc guide portion 120b. Is quickly moved to the tip of the arc inducing portion 120b. Therefore, it is possible to reliably prevent the arc from becoming a deadlocked state in the contact ribs 119, to suppress consumption around the contact ribs 119, and to prolong the service life of the C- have. In addition, it is possible to shorten the arc elongation time until the arc reaches the length required for the arc length, thereby improving the arc breaking performance.

The arc of the arc generated between the contact lips 119 and the contact portion 130a of the movable contact 130 at the time of opening is induced by the arc inducing portion 120b so that the arc does not move in a direction not to be driven It is possible to reliably drive in a desired direction without reaching the predetermined arc length, and to be surely prevented from becoming unblockable.

Further, by configuring the electromagnetic contactor 10 by using the contact point device 100 having such an action and effect, it is possible to prevent the arc from being stuck on the contact point provided on the fixed contact, to cut off the high voltage and the large current, It is possible to provide an electromagnetic contactor capable of achieving renown.

Next, a second embodiment of the present invention will be described with reference to Figs. 6 and 7. Fig.

In this second embodiment, the arc guiding function of the contact lip supporting member 120 is enhanced.

6 and 7, on the extension line of the arc guide portion 120b of the annular support portion 120a of the contact lip support member 120, Except that an arc inducing groove portion 120c directed from the inner circumferential edge toward the arc guiding portion 120b is formed. The same reference numerals are given to the corresponding portions in Figs. 2 and 3 And a detailed description thereof will be omitted.

According to the second embodiment, the annular support portion 120a for supporting the contact lips 119 is provided on the extension of the arc induction portion 120b from the inner peripheral edge tangent to the contact rib 119 to the arc induction portion 120b The arc of the arc generated between the contact lips 119 and the contact portion 130a of the movable contact 130 at the time of opening can be moved to the arc inducing portion 120b more quickly The arc guiding function can be enhanced to further improve the arc breaking performance, and the consumption around the contact rib 119 can be suppressed.

In the second embodiment, the arc guiding groove 120c is formed on the upper surface of the annular support portion 120a. However, the present invention is not limited to this, As shown in Fig.

Next, a third embodiment of the present invention will be described with reference to Figs. 8 and 9. Fig.

In the third embodiment, the arc guiding function of the contact lip supporting member 120 is enhanced as in the second embodiment.

8 and 9, on the extension of the arc guide portion 120b of the annular support portion 120a of the contact lip support member 120, 6 and 7 are the same as those of the second embodiment described above except that an arc inducing projection 120d directed from the inner peripheral edge toward the arc guiding portion 120b is formed. And a detailed description thereof will be omitted.

According to the third embodiment, on the extension line of the arc guiding portion 120b of the annular support portion 120a supporting the contact rib 119, an arc directed from the inner circumferential edge tangent to the contact rib 119 to the arc guiding portion 120b The arc of the arc generated between the contact lips 119 and the contact portion 130a of the movable contact 130 at the time of opening can be moved to the arc inducing portion 120b more quickly So that the arc breaking performance can be further improved and the consumption around the contact ribs 119 can be suppressed.

Although the arc induction protrusion 120d is formed on the upper surface of the annular support portion 120a in the third embodiment, the arc inducing portion 120b is not limited to this, As shown in Fig.

Next, a fourth embodiment of the present invention will be described with reference to Figs. 10 and 11. Fig.

In the fourth embodiment, arc extension in the contact lip supporting member 120 can be made longer.

That is, in the fourth embodiment, as shown in Figs. 10 and 11, an extended portion 120e extending downward from the lower surface of the contact portion 118 is formed in the arc guiding portion 120b of the contact lip supporting member 120, The same reference numerals are given to corresponding parts in FIG. 2 and FIG. 3, and a detailed description thereof will be omitted.

According to the fourth embodiment, since the extending portion 120e extending downward is formed below the arc guiding portion 120b, the contact lips 119 of the contact lugs 119 and the contact portions 130a Can be moved quickly to the arc inducing portion 120b, and furthermore, the foot of the arc can be quickly moved to the lower end of the extending portion 120e. As a result, the arc length of the arc 149 can be made longer as shown in Fig. 10, and the arc voltage can be further raised to securely extinguish the arc, ) Can be suppressed.

Next, a fifth embodiment of the present invention will be described with reference to Figs. 12 and 13. Fig.

In the fifth embodiment, the lower side of the contact bobbin 118 is used as an arc arc space.

That is, in the fifth embodiment, as shown in Figs. 12 and 13, in place of the extending portion 120e in the fourth embodiment described above, an inclined extension extending obliquely downward inward from the lower end of the arc guiding portion 120b The same reference numerals are given to corresponding parts in FIG. 10 and FIG. 11, and a detailed description thereof will be omitted.

According to the fifth embodiment, similarly to the fourth embodiment described above, since the inclined extension portion 120f extending downward inward and downward is formed below the arc guiding portion 120b, the contact ribs 119 And the contact portion 130a of the movable contactor 130 to the arc inducing portion 120b without moving quickly out of the arc inducing portion 120b and further to quickly move the foot of the arc to the lower end of the extending portion 120e have. As a result, the arc length of the arc 149 can be made longer as shown in Fig. 10, the arc voltage can be further raised, and the arc can be reliably extinguished, 119 can be suppressed. In this case, the arc foot of the stationary contactor 111 can be moved to the lower side of the contact bobbin 118 of the stationary contactor 111, and the lower side of the contact bobbin 118 can be used as the arc- , The elongation length of the arc is further elongated, so that the arc can be facilitated and the volume can be effectively used.

Next, a sixth embodiment of the present invention will be described with reference to Figs. 14 and 15. Fig.

In the sixth embodiment, as in the fifth embodiment described above, the lower side of the contact cradle is used as an arc small arc space.

12 and 13, in place of the inclined extension 120f in the above-described fifth embodiment, the lower surface of the contact portion 118 from the lower end of the arc guide portion 120b 12 and 13 are denoted by the same reference numerals, and detailed description thereof will be omitted. [0081] As shown in FIG.

According to the sixth embodiment, since the bent portion 120g extending along the lower surface of the contact portion 118 is formed at the lower end of the arc guiding portion 120b, the contact lips 119 and the movable contacts The arc of the arc generated between the contact portions 130a of the contact portions 120a and 130b is moved quickly to the arc inducing portion 120b and the arc foot is further moved to the front end of the bent portion 120g, It can be quickly moved to the center portion. As a result, the arc length of the arc 149 can be made longer as shown in Fig. 12, the arc voltage can be raised further to be reliably extinguished, the arc breaking performance can be further improved, 119 can be suppressed. In this case, the arc foot of the stationary contactor 111 can be moved to the lower side of the contact bobbin 118 of the stationary contactor 111, and the lower side of the contact bobbin 118 can be used as the arc- , The elongation length of the arc is further elongated, so that the arc can be facilitated and the volume can be effectively used.

Next, a seventh embodiment of the present invention will be described with reference to Figs. 16 and 17. Fig.

In the seventh embodiment, arc extension in the contact lip support member 120 is made longer and can be performed more quickly.

The seventh embodiment is different from the fourth embodiment in that the arc guide portion 120b and the extension portion 120e of the contact lip support member 120 in the fourth embodiment described above are moved downward from the upper surface of the contact portion 118, 10 and 11 are the same as those of the fourth embodiment except that they are formed as inclined plate portions 120h extending outwardly downwardly so that the distance between the inner surface of the front and rear side plate portions of the inner side plate portion 140 gradually decreases. Are denoted by the same reference numerals, and a detailed description thereof will be omitted.

According to the seventh embodiment, like the fourth embodiment described above, the arc guiding portion 120b and the extending portion 120e are formed as the swash plate portion 120h extending obliquely outwardly downward from the upper surface of the contact portion 118 . Therefore, the arc foot generated between the contact lips 119 and the contact portion 130a of the movable contactor 130 at the time of opening can be quickly moved to the arc inducing portion 120b. Since the arc of the arc moved to the arc inducing portion 120b is the inclined plate portion 120h whose arc inducing portion 120b is inclined outwardly downwardly, 120f to the lower end faster than the fourth embodiment described above. Thus, the arc length of the arc 149 can be made longer as shown in Fig. 17, the arc voltage can be increased further and the arc can be reliably extinguished, the arc breaking performance can be further improved, ) Can be suppressed. Even in this case, the arc foot of the fixed contact 111 can be moved to the lower side of the contact portion 118 of the fixed contact 111, and the lower side of the contact portion 118 can be used as the arc extinguishing space , The elongation length of the arc is further elongated, so that the arc can be facilitated and the volume can be effectively used.

Next, an eighth embodiment of the present invention will be described with reference to Figs. 18 and 19. Fig.

The eighth embodiment is configured such that it can be mounted so as to cover the contact cradle 118 with the contact lip support member 120.

That is, in the eighth embodiment, as shown in Figs. 18 and 19 (a) and 19 (b), the annular support portion 120a of the contact lip support member 120 is fitted to the distal end portion of the contact portion 118 A cap portion 120i having a U-shaped cross section as viewed from a plane covering the tip end portion and both side surfaces of the contact portion 118 is formed and an arc guide portion 120b is formed on a side surface of the cap portion 120i 2 and 3 are denoted by the same reference numerals, and a detailed description thereof will be omitted.

According to the eighth embodiment, the contact lip support member 120 is attached to the contact portion 118 so as to cover the contact portion 118 by inserting the tip of the contact portion 118 into the cap portion 120i do. By attaching the cap portion 120i to the tip end portion of the contact portion 118 as described above, the contact area can be increased, so that the contact lip support member 120 can be strongly bonded to the contact portion 118, Can be improved. As the arc breaking performance, the arc breaking performance as in the fourth embodiment described above can be exerted.

In the first to seventh embodiments, the case where the contact ribs 119 are circular when viewed from the top surface has been described. However, the contact ribs 119 are not limited thereto, but may be elliptical or rectangular . The shape of the annular support portion 120a of the contact lip support member 120 may be changed.

The contact lip 119 may be formed by forming a recess in the contact lip support member 120 and bonding the contact lip 119 to the contact lip 118 instead of directly contacting the contact lip 118.

In the first to eighth embodiments, the case where the contact portion of the movable contactor 130 is formed in the shape of a flat plate has been described. However, the present invention is not limited to this. As shown in Fig. 20, The arc guiding portion 130b extending obliquely upward toward the outside of the arc, which is the moving direction of the arc, may be formed on the side surface of the plate portion facing the contact portion 118a of the arm portions 111 and 112. In this case, it is possible to quickly move the foot on the side of the movable contactor 130 of the arc that occurs at the time of opening to the outside upwardly on the arc guide portion 130b. As a result, it is possible to extend the arc of the movable contactor 130 side more quickly and more rapidly, to increase the arc voltage more reliably, and to improve the arc breaking performance.

21A and 21B show the case where the movable contactor 130 is provided with the concave portion 132 in the first to eighth embodiments, , The concave portion 132 may be omitted and formed into a flat plate shape.

In the above-described embodiment, the contact device 100 and the electromagnet unit 200 are described only by way of example, and the internal structure of the contact device 100 and the electromagnet unit 200 may be arbitrary.

In the above embodiment, the case has been described in which the gas tight chamber 240 is formed by the contact housing case 102 and the cap 230 and the gas is sealed in the gas tight chamber 240. However, the present invention is not limited to this, When the current to be cut off is low, gas filling may be omitted.

The present invention relates to a contactor and a contactor, and more particularly, to a contactor having a contactor, a contactor, a contactor, a contactor, A contact portion of the contact lip is provided with a contact lip support member and a contact portion of the contact lip is connected to the contact portion of the contact lip. The present invention relates to a method of manufacturing an electrode assembly for an electric motor and a method for manufacturing the same, which comprises the steps of: And a permanent magnet for an arc arc furnace. The arc furnace includes an arc furnace, an arc furnace, an arc, an electromagnet unit, a magnetic yoke, a cylindrical auxiliary yoke, a spool, 208: exciting coil, 210: upper magnetic yoke, 214: return spring, 215: movable plunger

Claims (11)

A contact device in which movable contacts are arranged to be connectable and detachable with respect to a pair of fixed contacts,
Wherein the pair of fixed contacts are formed in a C shape by an upper plate portion, a contact portion disposed parallel to the lower portion of the upper plate portion and spaced apart from the upper portion, and a connecting plate portion connecting the upper plate portion and the contact portion, Shaped open ends are disposed opposite to each other,
Wherein the movable contact is disposed between the upper plate portion and the contact portion of the pair of stationary contactors so as to be connected to and detachable from the contact portion,
And an arc extinguishing permanent magnet for moving an arc generated when the stationary contactor and the movable contactor are spaced apart from each other,
An annular support portion for supporting the contact lips opposed to the contact of the movable contactor at a position opposite to the contact point of the movable contactor of the contact ladder; and an arc, which is defined by the permanent magnets for arc arc from the outer peripheral edge of the annular support portion And an arc guide portion extending in a direction away from the movable contactor and extending in a direction away from the movable contact. The contact device according to claim 1, wherein the contact lip support member is formed of a non-magnetic metal. The contact device according to claim 1 or 2, wherein a groove portion facing the arc guide portion is formed in the annular support portion. The contact device according to claim 1 or 2, wherein the annular support portion has a projection facing the arc guide portion. The contact device according to claim 1 or 2, wherein the arc guide portion includes an extension portion that protrudes downward from a lower end face of the contact portion. The contact device according to claim 1 or 2, wherein the arc guiding portion includes an inclined extension portion extending obliquely downward from the lower end face of the contact portion. 3. The contact apparatus according to claim 1 or 2, wherein the arc guide portion includes a bending extension portion along a lower side of the contact portion. The contact device according to claim 1 or 2, wherein the arc guiding portion comprises an inclined plate portion extending downward from an upper end surface of the contact piece portion downward below a lower surface of the contact piece portion. The contact apparatus according to claim 1 or 2, wherein the contact lip support member has a cap portion mounted on a tip end of the contact portion. The contact device according to claim 1 or 2, wherein the movable contact has an arc guide portion extending obliquely outwardly on both side edges in the longitudinal direction opposite to the contact rib. An electromagnetic contactor comprising the contact apparatus according to any one of claims 1 to 3 and an electromagnet unit for actuating the movable contact of the contact apparatus.

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