JP2020080234A - Contact device and electromagnetic relay - Google Patents

Abstract

To provide a contact device capable of suppressing a case from being damaged by an arc generated from a pair of contacts.SOLUTION: A contact device 2 comprises a contact part 6, a case, a partition wall 18 and a shield member 13. The contact part 6 includes a pair of contacts 31 and 32 and is switched into one state between a closed state of bringing the pair of contacts 31 and 32 into contact and an open state of separating the pair of contacts 31 and 32. The case accommodates the contact part 6, the partition wall 18 and the shield member 13 therein. The partition wall 18 is provided at a position in an orthogonal direction in which the pair of contacts 31 and 32 are orthogonal with mutual opposing directions, with respect to the contact part 6 and divides an inside of the case 12 into a first space S1 including the contact part 6 and a second space not including the contact part 6. The shield member 13 is provided on the partition wall 18. The partition wall 18 includes an opening 23 communicating the first space S1 and the second space. The opening 23 is overlapped with a space between the pair of contacts 31 and 32 in the open state in a direction in parallel with the orthogonal direction.SELECTED DRAWING: Figure 1

Description

  The present disclosure generally relates to a contact device and an electromagnetic relay, and more particularly, to a contact device and an electromagnetic relay having a contact portion that selectively switches to either one of a contact closed state and a contact open state.

  The electromagnetic relay (electromagnetic relay) described in Patent Document 1 includes a movable contact and a fixed contact (a pair of contacts), a base (partition wall portion), and a cover (case). The movable contact and the fixed contact are selectively switched to one of a state in which they are in contact with each other (contact closed state) and a state in which they are separated from each other (contact open state). A movable contact and a fixed contact are provided on the base. The base is provided with an opening for confirming the distance between the fixed contact and the movable contact during manufacturing. The cover houses the base.

JP, 2011-3308, A

  In the electromagnetic relay described in Patent Document 1, an arc (spark) generated when the fixed contact and the movable contact come into contact with each other passes through the opening of the base and comes into contact with the cover. This may damage the cover.

  In view of the above circumstances, the present disclosure has an object to provide a contact device and an electromagnetic relay that can prevent the case from being damaged by an arc generated from a pair of contacts.

  A contact device according to an aspect of the present disclosure includes a contact portion, a case, a partition wall, and a shielding member. The contact portion has a pair of contacts, and switches between one of a contact closed state in which the pair of contacts make contact and an open state in which the pair of contacts separate from each other. The case accommodates the contact portion. The partition wall is provided at a position in an intersecting direction where the pair of contacts intersect with a direction in which the pair of contacts face each other with respect to the contact part, and includes a first space including the contact part and a second space not including the contact part. The interior of the case is partitioned into a space. The shielding member is provided on the partition wall. The partition wall has an opening that connects the first space and the second space. At least a part of the opening overlaps with a space between the pair of contacts in the open state in a direction parallel to the intersecting direction. The shielding member has a main portion that covers at least a part of the opening.

  An electromagnetic relay according to an aspect of the present disclosure includes the contact device and an electromagnet device. The electromagnet device switches the pair of contacts to one of the open state and the closed state.

  The present disclosure has an advantage that it is possible to prevent the case from being damaged by the arc generated from the pair of contacts.

FIG. 1 is a front view of the electromagnetic relay according to the embodiment as viewed from the front side with the case omitted. FIG. 2 is a rear view of the same electromagnetic relay as seen from the rear side with the case omitted. FIG. 3 is a rear view of the above electromagnetic relay viewed from the rear side without omitting the case. FIG. 4 is a cross-sectional view showing a part of the cross section taken along the line AA of FIG. FIG. 5: is the perspective view which looked at the shielding member of the electromagnetic relay same as the above from the rear side. FIG. 6A is a perspective view showing an example of a shielding member of the electromagnetic relay according to the first modification. FIG. 6B is a perspective view showing another example of the shielding member of the electromagnetic relay according to the first modification. 7: is a perspective view which shows the shielding member of the electromagnetic relay which concerns on the modification 2. FIG. 8: is a perspective view which shows the shielding member of the electromagnetic relay which concerns on the modification 3. FIG. FIG. 9 is a partial cross-sectional view of an electromagnetic relay according to Modification 4. FIG. 10 is a partially exploded perspective view of the above electromagnetic relay. FIG. 11 is a rear view of the above electromagnetic relay viewed from the rear side with the case omitted.

  Hereinafter, the electromagnetic relay according to the embodiment will be described. The following embodiments are merely examples of various embodiments of the present disclosure. Further, the following embodiments can be variously modified according to the design and the like as long as the object of the present disclosure can be achieved. Further, the front-rear, left-right, and up-down directions in the following description are merely used for convenience of description, and are not intended to define the usage direction of the electromagnetic relay according to the embodiment. In FIG. 1, the front side of the paper is the front side and the back side of the paper is the rear side. 2 and 3, the back side of the paper is the front side and the front side of the paper is the rear side.

  The electromagnetic relay 1 according to the present embodiment will be described with reference to FIGS. 1 to 5.

  The electromagnetic relay 1 according to this embodiment is an electromagnetic relay, and includes a contact device 2 and an electromagnet device 3 as shown in FIG. The electromagnet device 3 is a drive device that switches the pair of contacts 31, 32 included in the contact device 2 into one of a contact open state and a contact closed state. The contact closed state is a state where the pair of contacts 31 and 32 are in contact with each other, and the contact opened state is a state where the pair of contacts 31 and 32 are apart from each other. The contact device 2 includes a base 4, an operating unit 5, a contact unit 6, a card 7, four terminals 8 to 11, a case 12 (FIG. 3), and a shielding member 13.

  The base 4 is a member to which the electromagnet device 3, the operating unit 5, the card 7, the contact unit 6, the four terminals 8 to 11, and the shielding member 13 are attached. The base 4 is made of an insulating material (for example, synthetic resin). The base 4 has, for example, a rectangular parallelepiped hollow box shape, and the front surface and the lower surface are open. The base 4 is housed inside the case 12.

  The base 4 has a left wall portion 16, a right wall portion 17, a rear wall portion 18 (a partition wall, a first partition wall), an upper wall portion 19, and an intermediate wall portion 20. Each of the walls 16 to 20 has, for example, a rectangular flat plate shape. The left wall portion 16 and the right wall portion 17 project forward from the left and right side portions of the rear wall portion 18. The upper wall portion 19 projects forward from the upper side portion of the rear wall portion 18. The left side portion of the upper wall portion 19 is connected to the upper side portion of the left wall portion 16, and the right side portion of the upper wall portion 19 is connected to the upper side portion of the right wall portion 17.

  The intermediate wall portion 20 is arranged between the left wall portion 16 and the right wall portion 17. The intermediate wall portion 20 is arranged near the middle of the left wall portion 16 and the right wall portion 17 in the vertical direction. The intermediate wall portion 20 extends from the right wall portion 17 to an intermediate position between the left wall portion 16 and the right wall portion 17. The rear side portion of the intermediate wall portion 20 (the side portion on the back side of the paper surface in FIG. 1) is connected to the front surface of the rear wall portion 18 (the surface on the side of the paper surface in FIG. 1), and the right side portion of the intermediate wall portion 20 is It is connected to the left main surface of the right wall portion 17. In addition, in the internal space S1 (first space) of the base 4, a space above the intermediate wall portion 20 is described as an upper space S2, and a space below the intermediate wall portion 20 is described as a lower space S3. To do.

  The rear wall portion 18 has an opening 23 (first opening) and an opening 24. The opening 23 and the opening 24 are, for example, rectangular openings. The opening 23 and the opening 24 are provided in a portion of the rear wall portion 18 facing the upper space S2. The opening 23 and the opening 24 are provided side by side in the lateral direction (rightward or leftward). By providing the opening 23, it is possible to confirm the gap (space) S6 between the contact portions 6 in the contact open state at the time of manufacturing the electromagnetic relay 1. By providing the opening 24, it is possible to confirm the arrangement of the elastic piece 33, which will be described later, of the contact portion 6 at the time of manufacturing the electromagnetic relay 1. The shielding member 13 is attached to the rear wall portion 18 so as to close the opening 23.

  Of the internal space S1 of the base 4, the contact portion 6, the operating portion 5 and the card 7 are arranged in the upper space S2, and the electromagnet device 3 is arranged in the lower space S3. As shown in FIG. 4, the rear wall portion 18 is a partition wall that divides the internal space S4 of the case 12 into an internal space (first space) S1 of the base 4 and a gap space (second space) S5. The internal space S1 of the base 4 is a space including the contact portion 6. The clearance space S5 is a space between the rear wall portion 18 of the base 4 and the rear wall portion 41 of the case 12 (between the rear surface 18k of the rear wall portion 18 and the case 12) and does not include the contact portion 6. Is. The opening 23 of the rear wall portion 18 is an opening that connects the internal space S1 and the gap space S5. That is, the internal space S1 and the gap space S5 are connected through the opening 23.

  The electromagnet device 3 includes a bobbin 26, a coil 27, an iron core 28, and a yoke 29.

  The bobbin 26 is made of an insulating material (for example, synthetic resin). The bobbin 26 has, for example, a cylindrical shape. The bobbin 26 is arranged in the lower space S3 of the base 4. The central axis of the bobbin 26 is parallel to the upper wall portion 19 and perpendicular to the left wall portion 16 and the right wall portion 17. The coil 27 is wound around the outer circumference of the bobbin 26.

  The iron core 28 is made of a soft magnetic material (for example, iron). The iron core 28 has, for example, a rod shape and is arranged on the central axis of the bobbin 26. The left and right ends 28 a and 28 b of the iron core 28 project from the left and right ends of the bobbin 26.

  The yoke 29 is made of a soft magnetic material (for example, iron). The yoke 29 is, for example, L-shaped, and has an end plate portion 29a and a side plate portion 29b. The end plate portion 29a is arranged in parallel along the right end surface of the bobbin 26. The side plate portion 29b is arranged along the side surface of the bobbin 26 on the operating portion 5 side. The side plate portion 29b extends from the upper end of the end plate portion 29a in an orthogonal direction (left direction) orthogonal to the end plate portion 29a (cross direction, first cross direction). One end 29f of the yoke 29 is connected to the right end 28a of the iron core 28 protruding from the right end of the bobbin 26. The iron core 28 and the yoke 29 form a magnetic path of the magnetic flux generated by the coil 27.

  The yoke 29 has two protrusions 29c and 29d (see FIG. 2). The two projecting portions 29c and 29d project from the rear surface of the side plate portion 29b of the yoke 29 toward the rear wall portion 18 side. The two projecting portions 29c and 29d are arranged on the rear surface of the side plate portion 29b at intervals along the longitudinal direction (left direction or right direction). The two protrusions 29c and 29d are fitted into the two holes 18a and 18b provided in the rear wall portion 18. The yoke 29 is arranged in a state of being positioned with respect to the base 4 by fitting the two protrusions 29c and 29d into the two holes 18a and 18b. The two protrusions 29c and 29d are exposed to the outside of the rear wall portion 18 through the two holes 18a and 18b. Hereinafter, the protruding portions 29c and 29d are also referred to as exposed portions 29c and 29d.

  The operating part 5 is formed of a magnetic material (for example, iron). As shown in FIG. 1, the operating portion 5 is, for example, L-shaped, and has an end plate portion 5a and a side plate portion 5b. The end plate part 5a is arranged along the left end part of the bobbin 26, and the side plate part 5b is arranged along the side plate part 29b above the side plate part 29b of the yoke 29. The side plate portion 5b extends from the upper end portion of the end plate portion 5a in an orthogonal direction (intersection direction, right direction) orthogonal to the end plate portion 5a.

  The operating part 5 has a bent part 5c. The bent portion 5c is a connecting portion between the end plate portion 5a and the side plate portion 5b of the operating portion 5. A portion near the bent portion 5c of the actuating portion 5 (for example, a lower portion of the bent portion 5c) is rotatably supported by the left end portion of the side plate portion 29b of the yoke 29. The actuating portion 5 can rotate clockwise or clockwise at a certain angle around the lower portion of the bent portion 5c of the actuating portion 5. The actuating portion 5 is biased by a biasing member (for example, a spring) in a direction in which the side plate portion 5b approaches the side plate portion 29b of the yoke 29.

  Therefore, in the initial state (the state in which the electromagnet device 3 is not excited), the end plate portion 5a of the actuating portion 5 is separated from the left end portion 28b of the iron core 28 by the urging force of the urging member. Then, when the coil 27 is energized and the electromagnet device 3 is excited, the end plate portion 5a of the operating portion 5 is drawn to the left end portion 28b of the iron core 28, and the operating portion 5 moves the lower portion of the bent portion 5c. The side plate portion 5b is rotated about the center by a certain angle in a direction away from the side plate portion 29b of the yoke 29. When the coil 27 is de-energized, the electromagnet device 3 is demagnetized and the actuating portion 5 is returned to the initial state by the urging force of the urging member. In this way, the actuating portion 5 is arranged on the base 4 so as to be freely returned by the excitation of the electromagnet device 3 to rotate by a certain angle.

  The contact portion 6 includes a fixed contact 31, a movable contact 32, and an elastic piece 33. The fixed contact 31 and the movable contact 32 form a pair of contacts. Hereinafter, the pair of contacts 31 and 32 will also be described.

  The fixed contact 31 is fixed relative to the base 4. The movable contact 32 is arranged on the base 4 so that the movable contact 32 can approach and come in contact with or separate from the fixed contact 31. More specifically, the fixed contact 31 is indirectly fixed to the base 4 by being fixed to the terminal 11 provided on the base 4. The movable contact 32 is fixed to the elastic piece 33 attached to the base 4, so that the movable contact 32 is arranged on the base 4 so that the movable contact 32 can approach and come in contact with or separate from the fixed contact 31. In addition, although the present embodiment is indirectly fixed to the base 4 via the terminal 11, it may be directly fixed to the base 4 without the terminal 11.

  The fixed contact 31 and the movable contact 32 are arranged in the left space in the upper space S2 of the base 4. More specifically, the fixed contact 31 is arranged above the left space (that is, below the upper wall 19). The movable contact 32 is arranged below the left side space (that is, above the intermediate wall portion 20). That is, the fixed contact 31 and the movable contact 32 are arranged at intervals in the facing direction (upward or downward). In the initial state (state where the electromagnet device 3 is not excited), a predetermined space (gap) is secured between the movable contact 32 and the fixed contact 31.

  As shown in FIG. 1, the rear wall portion 18 intersects (for example, is orthogonal to) the arrangement of the contact portions 6 in a direction (upward or downward) in which the fixed contact 31 and the movable contact 32 face each other. It is provided at a position in the intersecting direction (for example, rearward direction). Further, the rear wall portion 18 is preferably arranged at a position where an arc (spark) generated when the fixed contact 31 and the movable contact 32 are separated can come into contact with each other. At least a part of the opening 23 of the rear wall portion 18 is formed in the rear wall portion 18 so as to overlap the space (gap) S6 between the fixed contact 31 and the movable contact 32 in the contact open state in the front direction or the rear direction. It is provided. The front direction or the rear direction is a direction parallel to an orthogonal direction (intersection direction) orthogonal to (intersecting) the direction in which the pair of contacts 31 and 32 face each other. The above-mentioned "at least a part of the opening 23" when at least a part of the opening 23 overlaps the space S6 means "at least a part of the opening 23" when the shielding member 13 covers at least a part of the opening 23. It may or may not be the same as “partial”.

  The elastic piece 33 is a leaf spring made of a conductive material and has a strip shape. The elastic piece 33 extends leftward and rightward. The left end 33a of the elastic piece 33 is fixed relatively to the base 4. More specifically, the left end portion 33 a of the elastic piece 33 is fixed to the terminal 10 provided on the base 4 and thus fixed to the base 4. The right end portion 33b of the elastic piece 33 is a free end and is elastically displaceable in an upward direction or a downward direction. The right end portion 33b of the elastic piece 33 extends to the position of the movable contact 32, and the movable contact 32 is provided on the upper main surface of the right end portion 33b of the elastic piece 33. The elastic piece 33 elastically bends up and down with the left end portion 33a as a fulcrum, so that the right end portion 33b of the elastic piece 33 is displaced upward or downward. Due to this displacement, the movable contact 32 is displaced upward or downward to approach the fixed contact 31 to come into contact with or separate from the fixed contact 31.

  The card 7 is a member that transmits the vertical movement of the side plate portion 5b of the operating portion 5 to the elastic piece 33. The card 7 is made of an insulating material (for example, synthetic resin). The card 7 is fixed to the upper side of the side plate portion 5b of the operating portion 5. The card 7 has a protrusion 7a on its upper part. The tip of the protruding portion 7a of the card 7 is in contact with the center of the lower surface of the elastic piece 33 in the longitudinal direction.

  The four terminals 8 to 11 are terminals that function as external connection terminals of the electromagnetic relay 1. The two terminals 8 and 9 are terminals for supplying a drive current to the electromagnet device 3. The right terminal 8 of the two terminals 8 and 9 is electrically connected to one end of the coil 27. The left terminal 9 is electrically connected to the other end of the coil 27. Cover members 35a and 35b are attached to the left and right ends of the bobbin 26, respectively. The left side terminal 9 is fixed to the left side cover member 35b and protrudes downward from the vicinity of the front left corner of the lower surface of the base 4. The right-side terminal 8 is fixed to the right-side cover member 35a and protrudes downward from the vicinity of the front right corner of the lower surface of the base 4. For example, when a current is input from the terminal 8 and a current is output from the terminal 9, the coil 27 is energized to generate a magnetic field and the electromagnet device 3 is excited.

  The two terminals 10 and 11 are terminals for inputting or outputting a current flowing between the pair of contacts 31 and 32 in the contact closed state. The left terminal 10 of the two terminals 10 and 11 is fixed to the outer surface of the left wall portion 16 of the base 4. The upper portion 10a of the left terminal 10 is bent and drawn into the base 4, and is electrically connected to the left end portion 33a of the elastic piece 33. The lower portion 10b of the left terminal 10 projects downward from near the rear left corner of the lower surface of the base 4. The right terminal 11 of the two terminals 10 and 11 is fixed to the outer surface of the right wall portion 17 of the base 4. The upper part 11 a of the right terminal 11 is bent and drawn into the base 4, and is electrically connected to the fixed contact 31. The fixed contact 31 is fixed to the lower surface of the upper portion 11 a of the right terminal 11. The lower portion 11b of the right terminal 11 is projected downward from near the rear right corner of the lower surface of the base 4.

  In this electromagnetic relay 1, when the operating portion 5 rotates by a certain angle due to the excitation of the electromagnet device 3, the rotation of the operating portion 5 is transmitted to the elastic piece 33 via the card 7, and the elastic piece 33 bends toward the fixed contact 31 side. Therefore, the movable contact 32 and the fixed contact 31 come into contact with each other. Then, when the electromagnet device 3 is de-excited, the elastic piece 33 returns to the initial state together with the operating portion 5, and the movable contact 32 and the fixed contact 31 are separated from each other.

  The case 12 is a member that houses the base 4, as shown in FIG. The case 12 is made of, for example, an insulating material (for example, synthetic resin). The case 12 has, for example, a rectangular parallelepiped hollow box shape, and has an open upper surface, for example. The case 12 has a front wall portion, a rear wall portion 41, a left wall portion 42, a right wall portion 43, and a bottom wall portion 44. The bottom wall portion 44 has four through holes. The four through holes correspond to the four terminals 8 to 11, and the corresponding terminals penetrate. The four through holes are provided near the four corners of the bottom wall portion 44.

  The base 4 is housed in the base 4 through an opening on the upper side of the case 12. In this state, the four terminals 8 to 11 project below the case 12 from the four through holes of the bottom wall portion 44 of the case 12. The front wall portion of the case 12 covers the open front surface of the base 4, and the rear wall portion 41, the left wall portion 42, and the right wall portion 43 of the case 12 are respectively the rear wall portion 41, the left wall portion 16, and the rear wall portion of the base 4. It covers the right wall portion 17. In this state, the openings 23 and 24 of the base 4, the shielding member 13, and the exposed portions 29 and 29d of the yoke 29 are covered with the rear wall portion 41 of the case 12.

  As shown in FIG. 2, the shielding member 13 is a member that covers at least a part of the opening 23 of the rear wall portion 18 of the base 4. In the present embodiment, the shielding member 13 covers the entire opening 23. Since the shielding member 13 covers the opening 23, it is possible to prevent the arc (spark) generated when the fixed contact 31 and the movable contact 32 come into contact with each other from coming out of the opening 23 and coming into contact with the rear wall 41 of the case 12. To do.

  The shielding member 13 has, for example, a flat plate shape. The shield member 13 is made of, for example, a metal material. The metal material is, for example, copper or a copper alloy (for example, zirconium copper and phosphor bronze). The heat resistance of the shielding member 13 is preferably higher than the heat resistance of the rear wall portion 18 (base 4). This can prevent the shielding member 13 from being melted by the heat of the arc generated at the pair of contacts 31, 32. Further, the thermal conductivity of the shielding member 13 is preferably higher than the thermal conductivity of the rear wall portion 18. Thereby, the heat dissipation of the shielding member 13 can be improved. The shielding member 13 may be made of the same material as the base 4. In addition, although the shielding member 13 is formed of a metal material in the present embodiment, it may be formed of ceramic.

  As shown in FIG. 2, the shield member 13 is arranged on the rear surface 18k of the rear wall portion 18 of the base 4. Thereby, the shielding member 13 can be attached from the rear side of the rear wall portion 18 (that is, the outside of the base 4). Further, in the present embodiment, since the base 4 is housed in the case 12, the shielding member 13 has a rear surface (a surface facing the case 12) 18k and a rear surface of the rear wall portion 41, as shown in FIG. It is arranged in a space (gap space) S<b>5 with the space 12. As a result, the shield member 13 is sandwiched between the rear wall portion 18 and the case 12, and the shield member 13 can be positioned in the direction in which the rear wall portion 41 and the case 12 face each other.

  As shown in FIG. 5, the shielding member 13 has a main portion 47, two first protruding portions 48a and 48b, and two second protruding portions 49a and 49b.

  The main portion 47 is a portion that covers the opening portion 23 of the rear wall portion 18 of the base 4 (see FIG. 2 ), and has a plate shape having the same shape and size as the opening portion 23 (that is, a rectangular plate shape).

  The first protruding portions 48a and 48b are portions that overlap the region around the opening 23 in the rear wall portion 18 in the front direction or the rear direction. The front direction or the rear direction is a direction parallel to the orthogonal direction orthogonal to the direction in which the pair of contacts 31 and 32 face each other. The first protrusions 48a and 48b can increase the heat capacity of the shielding member 13 and improve the heat dissipation of the shielding member 13.

  The first projecting portions 48 a and 48 b project from the outer peripheral end of the main portion 47 to the outer peripheral side of the main portion 47 in parallel to the main portion 47. More specifically, the first protrusions 48a and 48b are, for example, rectangular plate shapes. The first protruding portion 48a is provided, for example, in the upper side portion 47a of the main portion 47 in the range between the left end portion and the center rightward portion and protrudes upward. The first protruding portion 48a is formed to have a size that does not interfere with the peripheral edge portion 19s of the upper wall portion 19. The right center portion is a position closer to the right side than the center of the upper side portion 47a of the main portion 47. The first projecting portion 48b is provided, for example, in the lower side portion 47b of the main portion 47 in the range between the right end portion and the center left portion, and projects downward. That is, the shielding member 13 has a rectangular shape in plan view and has rectangular notches 50 at the upper right corner and the lower left corner. The shielding member 13 thus formed has a shape that is point-symmetric with respect to the center P1 of the main portion 47 in a plan view of the main portion 47.

  As described above, the shielding member 13 is arranged on the rear surface 18k of the rear wall portion 18 (see FIG. 2). Therefore, the main portion 47 and the first protruding portions 48a and 48b are also arranged on the rear surface 18k of the rear wall portion 18. The rear surface 18k of the rear wall portion 18 is a main surface of the rear wall portion 18 opposite to the pair of contacts 31, 32. In addition, the shielding member 13 is arranged in the gap space S5 between the rear surface 18k of the rear wall portion 18 and the case 12 as described above (see FIG. 4). Therefore, the main portion 47 and the first protruding portions 48a and 48b are also arranged in the gap space S5 between the rear surface 18k of the rear wall portion 18 and the case 12. The rear surface 18k of the rear wall portion 18 is a surface of the rear wall portion 18 that faces the case 12.

  The second protrusions 49a and 49b are portions that come into contact with the inner circumference of the opening 23 of the rear wall portion 18 of the base 4 (see FIG. 1). The position of the shielding member 13 on the rear surface of the rear wall portion 18 of the base 4 is positioned by the second protrusions 49 a and 49 b contacting the inner circumference of the opening 23. As shown in FIG. 5, the second projecting portions 49a and 49b project forward from the outer peripheral ends (for example, the left and right side portions) of the main portion 47 of the shielding member 13. The front direction is the opposite direction of the orthogonal direction (intersection direction, rear direction) orthogonal (crossing) to the direction (upward or downward) in which the pair of contacts 31 and 32 face each other. The second protruding portion 49a is provided over the entire right side portion 47c of the main portion 47, and the second protruding portion 49b is provided over the entire left side portion 47d of the main portion 47. The second protrusions 49a and 49b have, for example, a rectangular shape.

  The shield member 13 preferably has a volume (for example, a thickness or an area) as large as possible in order to reduce the temperature rise due to the heat of the arc generated from the pair of contacts 31 and 32, thereby increasing the heat capacity. That is, it is desirable that the first protrusions 48a and 48b be formed as large as possible. In addition, the shielding member 13 should avoid the metal member (exposed portions 29c and 29d of the members constituting the electromagnet device 3 such as the yoke 29) exposed on the rear wall portion 18 and the peripheral portion 19s of the upper wall portion 19. It is arranged (see FIG. 2). Further, when the shield member 13 is attached to the rear wall portion 18, the shape of the shield member 13 in plan view is set with respect to the center P1 of the main portion 47 so that it is not necessary to consider the vertical and horizontal directions of the shield member 13. It is desirable that the shape be point-symmetrical (see FIGS. 1 and 5). The plan view shape of the shielding member 13 is determined in consideration of these conditions.

  In this embodiment, the shielding member 13 is formed by bending a metal flat plate. The recess 13s shown in FIG. 5 is a bending relief portion when the second protrusions 49a and 49b are formed by bending. Hereinafter, the concave portion 13s is also referred to as a bending relief portion 13s. The bending relief portion 13s means that when the second projecting portions 49a and 49b are bent so as to be orthogonal to the main portion 47, cracks occur in both sides of the base end portions of the second projecting portions 49a and 49b. It is a recess to prevent. In addition, in this embodiment, although the shielding member 13 is formed by bending, the manufacturing method of the shielding member 13 is not limited to the manufacturing method including bending.

  The shield member 13 is attached to the rear wall portion 18 as follows. That is, as shown in FIG. 2, the shielding member 13 is attached to the rear surface of the rear wall portion 18 so as to cover the opening 23 from the rear side of the rear wall portion 18 of the base 4. In this mounted state, the second protrusions 49a and 49b are inserted into the opening 23 and come into contact with the inner circumference of the opening 23 (see FIG. 1). As a result, the shielding member 13 is attached to the opening 23. Further, the second protrusions 49a and 49b contact the inner periphery of the opening 23, whereby the shield member 13 is positioned and arranged on the rear surface of the rear wall portion 18 (see FIG. 1). More specifically, the second protrusions 49a and 49b contact the left and right sides of the inner circumference of the opening 23, whereby the shielding member 13 is positioned to the left and right of the rear wall 18 (FIG. 1). Further, the upper and lower ends of the second protrusions 49a and 49b contact the upper and lower sides of the opening 23, thereby positioning the shield member 13 with respect to the rear wall 18 in the upward and downward directions (see FIG. 1). ).

  Further, as shown in FIG. 2, in the mounted state, the main portion 47 covers the entire opening 23. Further, the first protrusions 48 a and 48 b come into contact with the periphery of the opening 23 on the rear surface of the rear wall portion 18. At this time, the first protruding portion 48b of the shielding member 13 is arranged on the rear surface of the rear wall portion 18 by the notch 50 of the shielding member 13 so as to avoid the exposed portion 29c exposed from the hole 18a of the rear wall portion 18. ing. Further, the first protruding portion 48a is arranged so as not to contact the peripheral edge portion 19s of the upper wall portion 19 of the base 4.

  The plan view shape of the shielding member 13 is point-symmetric with respect to the center P1 of the main portion 47. Therefore, when the shield member 13 is attached to the rear wall portion 18, the shape of the shield member 13 in plan view is the same even when the shield member 13 is turned upside down or left and right. Therefore, the shielding member 13 can be mounted on the rear surface of the rear wall portion 18 without having to worry about the upper and lower sides or the left and right sides of the shielding member 13. Therefore, workability when the shield member 13 is mounted on the rear wall portion 18 can be improved.

  As described above, according to the contact device 2 and the electromagnetic relay 1 according to this embodiment, the shielding member 13 causes the arc (spark) generated from the pair of contacts 31 and 32 to pass through the opening 23 and be outside the opening 23. The contact with 12 can be suppressed. This can prevent the case 12 from being damaged by the arc. In addition, it is possible to prevent the inclusions of the case 12 from scattering due to the damage of the case 12. As a result, it is possible to suppress the above-mentioned inclusions from being deposited between the pair of contacts 31 and 32, and reduce the contact failure between the pair of contacts 31 and 32.

  In the present embodiment, the contact device 2 includes one pair of contacts 31 and 32, but may include a plurality of pairs of contacts 31 and 32. That is, the contact device 2 according to the present embodiment may include at least one pair of contacts 31 and 32.

  Further, in the present embodiment, the contact device 2 includes one elastic piece 33, but may include a plurality of elastic pieces 33. In this case, one elastic piece 33 may be provided with one or more movable contacts 32.

  Further, in the present embodiment, the movable contact 32 and the elastic piece 33 are separate members, but the movable contact 32 and the elastic piece 33 may be integrally formed as one member. That is, the movable contact 32 may be formed as a part (for example, a protrusion) of the elastic piece 33.

  Further, in the present embodiment, the fixed contact 31 and the terminal 11 are separate members, but the fixed contact 31 and the terminal 11 may be integrally formed as one member. That is, the fixed contact 31 may be formed as a part (for example, a protrusion) of the terminal 11.

  In addition, in the present embodiment, the contact device 2 includes the two first protrusions 48a and 48b, but the contact device 2 may include at least one first protrusion. Further, the contact device 2 includes two second protrusions 49a and 49b, but the contact device 2 may include at least one second protrusion.

  In addition, in this embodiment, the shielding member 13 covers the entire opening 23 of the rear wall portion 18, but may cover at least a part of the opening 23.

  Further, in the present embodiment, the pair of contacts is composed of the fixed contact 31 and the movable contact 32, but both of the pair of contacts may be movable contacts.

(Modification)
Hereinafter, modified examples of the above embodiment will be described. The following modifications may be implemented in combination. In the following description of the modified example, the same components as those in the above-described embodiment may be designated by the same reference numerals and the description thereof may be omitted.

(Modification 1)
In the above-described embodiment, since the exposed portions 29c and 29d of the yoke 29 are exposed on the rear surface 18k of the rear wall portion 18 (see FIG. 2), in order to avoid the exposed portions 29c and 29d, the shielding member 13 is , Notches 50. However, as long as the exposed portions 29c and 29d are not exposed on the rear surface 28k of the rear wall portion 18, the shielding member 13 may not have the cutout portion 50 as shown in FIG. 6A or 6B. The shape of the shielding member 13 shown in FIGS. 6A and 6B is a rectangular shape in plan view. In other words, the first protrusions 48a and 48b are provided on the entire upper side portion 47a and the lower side portion 47b of the main portion 47. It should be noted that FIG. 6A shows a case where there is a bending relief portion 13s, and FIG. 6B shows a case where there is no bending relief portion 13s.

(Modification 2)
In the above-described embodiment, the shape of the shielding member 13 in plan view is a point-symmetrical shape with respect to the center P1 of the main portion 47, so the shielding member 13 has two notches at the upper right corner and the lower left corner. Have 50. However, the plan-view shape of the shielding member 13 is not limited to a point-symmetrical shape with respect to the center P1 of the main portion 47. In this case, as shown in FIG. It may have a shape having one notch 50. In this case, the first projecting portion 48a is provided on the entire upper side portion 47a of the main portion 47, and the first projecting portion 48b is the right end and the center left side portion of the lower side portion 47b of the main portion 47 as in the first embodiment. It is provided in the range between and.

(Modification 3)
In the above-described embodiment, the shielding member 13 has the cutouts 50 at two locations, the upper right corner and the lower left corner. However, the location where the notch 50 is provided is not limited to two locations, the upper right corner and the lower left corner. As shown in FIG. 8, the shielding member 13 may have notches 50 at four corners (upper right corner, lower right corner, upper left corner and lower left corner).

(Modification 4)
In this modification, as shown in FIG. 9, the right wall portion 17 of the base 4 further has an opening 70. The opening 70 is covered with the terminal 11 (shielding member).

  As shown in FIG. 9, the right wall portion 17 is a partition that partitions the internal space S4 of the case 12 into an internal space (first space) S1 of the base 4 and a gap space (third space, second space) S7. It is a wall (second partition wall). The internal space S1 of the base 4 is a space including the contact portion 6. The gap space S7 is a space between the right wall portion 17 of the base 4 and the right wall portion 43 of the case 12 (that is, between the right surface of the right wall portion 17 and the case 12) and does not include the contact portion 6. Is.

  As shown in FIG. 9, the right wall portion 17 intersects (for example, intersects with) the direction (upward or downward) in which the fixed contact 31 and the movable contact 32 face each other with respect to the disposition of the contact portion 6. It is provided at a position (for example, rightward direction) (second crossing direction). The right wall portion 17 is provided at a position (second crossing direction) that intersects the facing direction of the pair of contact portions 6 in the right direction. The rear wall portion 18 is provided at a position in a direction (first intersecting direction) that intersects the facing direction of the pair of contact portions 6 in the rear direction. That is, the right wall portion 17 is provided at a position in the second intersecting direction (rightward direction) different from the first intersecting direction (rearward direction). The right wall portion 17 is preferably arranged at a position where an arc (spark) generated when the fixed contact 31 and the movable contact 32 are separated can come into contact with each other.

  As shown in FIG. 9, the opening 70 is an opening for avoiding the right wall portion 17 from an arc generated when the contact portion 6 is opened. The opening 70 is provided on the right wall 17 above the intermediate wall 20. At least a part of the opening 70 is provided in the right wall portion 17 so as to overlap the space (gap) S6 between the fixed contact 31 and the movable contact 32 in the contact open state in the right direction or the left direction.

  The opening 70 is provided in the right wall portion 17 at a portion to which the above-mentioned arc reaches. By providing the opening 70 in such a portion, the right wall 17 can be prevented from the arc by the opening 70. As a result, it is possible to prevent the right wall portion 17 from being damaged by the arc. The opening 70 has, for example, a rectangular shape. The opening 70 connects the internal space S1 and the gap space S7. That is, the internal space S1 and the gap space S7 are connected through the opening 17.

  The right wall portion 17 has a slit portion 17a through which the terminal 11 passes, as shown in FIG. The slit portion 17a is provided rearward from the upper portion of the front side portion of the right wall portion 17. The slit portion 17a connects the internal space S1 (see FIG. 9) of the base 4 and the gap space S7 (see FIG. 9).

  As shown in FIG. 11, the terminal 11 is arranged on the outer main surface of the right wall portion 17, and is electrically connected to one contact (fixed contact 31) of the contact portion 6 (see FIG. 9 ). As shown in FIG. 10, the terminal 11 has a main part 111, an external connection part 112, and a contact support part 113.

  As shown in FIG. 10, the main portion 111 is, for example, an inverted triangular flat plate shape, and is a portion that covers the opening 70. In the present modification, the main part 111 covers the entire opening 70 (see FIG. 11), but at least a part of the opening 70 may be covered. As a result, it is possible to prevent the above arc from coming out of the opening 70 to the outside of the base 4 and damaging the case 12. That is, the terminal 11 functions as a shielding member that shields the arc. The external connection portion 112 is a portion that makes electrical contact with an external circuit. The external connection portion 112 has, for example, a strip-like rod shape, and extends downward from the lower end of the main portion 111.

  The contact support portion 113 is a portion that supports the fixed contact 31 (see FIG. 9 ). As shown in FIG. 10, the contact support portion 113 has, for example, a rectangular plate shape, and projects from the upper end of the main portion 111 to the inner main surface side of the main portion 111. The fixed contact 31 is provided on the lower main surface of the contact support portion 113 (see FIG. 9). The left end portion 113a of the contact support portion 113 is bent upward. The connecting portion between the main portion 111 and the contact support portion 113 is provided with a notch 114 that is cut forward from the rear end of the connecting portion. The contact support portion 113 is the upper portion 11a of the above embodiment (see FIG. 1).

  As shown in FIG. 11, the terminal 11 is attached to the right wall portion 17 from the front side portion side of the right wall portion 17 so that the cut portion 114 and the slit portion 17a are fitted to each other. In this mounted state, the main part 111 and the external connection part 112 are arranged on the outer main surface of the right wall part 17. Further, the main portion 111 covers at least a part of the opening 70. In this modification, the main portion 111 covers the entire opening 70. The lower end portion 112 of the external connection portion projects downward from the lower portion of the base 4. The contact point support portion 113 is arranged inside the base 4 and along the lower main surface of the upper wall portion 19 (see FIG. 9 ). The left end portion of the contact point support portion 113 is fitted and fixed in the groove portion 19a provided in the upper wall portion 19 (see FIG. 9).

  As described above, according to this modification, the opening 70 of the right wall portion 17 can prevent the right wall portion 17 from being damaged by the arc generated when the contact portion 6 is opened. Further, since the terminal 11 covers the opening 70, it is possible to prevent the arc from damaging the case 12 outside the opening 70 through the opening 70.

  In this modification, the base 4 has the two openings 23 and 70, but it suffices to have at least one of the two openings 23 and 70.

(Summary)
The contact device (2) according to the first aspect includes a contact portion (6), a case (12), partition walls (18, 17), and shielding members (13, 11). The contact part (6) has a pair of contacts (31, 32), and includes a contact closed state in which the pair of contacts (31, 32) are in contact with each other and an open state in which the pair of contacts (31, 32) are apart from each other. Switch to one of the states. The case (12) houses the contact portion (6). The partition wall (18, 17) is provided at a position in the intersecting direction with respect to the pair of contact points (31, 32) intersecting the direction in which the pair of contact points (31, 32) face each other. The partition walls (18, 17) are provided inside the case (12) (S4) in the first space (S1) including the contact part (6) and the second space (S5, S7) not including the contact part (6). Partition. The shielding members (13, 11) are provided on the partition walls (18, 17). The partition wall (18, 17) has an opening (23, 70) connecting the first space (S1) and the second space (S5, S7). At least a part of the opening (23, 70) overlaps with the space (S6) between the pair of contacts (31, 32) in the open state in the direction parallel to the intersecting direction. The shielding member (13, 11) has a main part (47, 111) that covers at least a part of the opening (23, 70).

  According to this configuration, the shielding member (13, 11) causes the arc (spark) generated from the pair of contact points (31, 32) to pass through the opening (23, 70) to the outside of the opening (23, 70). It is possible to suppress contact with a certain case (12). This can prevent the case (12) from being damaged by the arc.

  In the contact device (2) according to the second aspect, in the first aspect, the heat resistance of the shielding member (13) is higher than the heat resistance of the partition wall (18).

  With this configuration, it is possible to suppress the deterioration of the shielding member (13) due to the arc generated from the pair of contact points (31, 32).

  In the contact device (2) according to the third aspect, in the first or second aspect, the thermal conductivity of the shielding member (13) is higher than the thermal conductivity of the partition wall (18).

  According to this structure, the heat dissipation of the shielding member (13) can be improved. Thereby, even if the shielding member (13) is heated by the arc generated from the pair of contact points (31, 32), the shielding member (13) can be prevented from being deteriorated by the arc.

  A contact device (2) according to a fourth aspect is the contact device (2) according to any one of the first to third aspects, wherein the shielding member (13) is provided at a position where an arc generated from the contact portion (6) can contact. There is.

  The contact device (2) according to the fifth aspect is the contact device (2) according to any one of the first to fourth aspects, wherein the shielding member (13) is a first protrusion (48a, 48b) protruding from the main portion (47). Further has. The first protrusions (48a, 48b) overlap the region around the opening (23) in the partition wall (18) in the direction parallel to the above-described intersecting direction.

  According to this configuration, the volume of the shielding member (13) can be increased by the first protrusions (48a, 48b). Thereby, the heat capacity of the shielding member (13) can be increased, and even if the shielding member (13) is heated by the heat of the arc, it is possible to suppress the deterioration of the shielding member (13) due to the temperature rise.

  A contact device (2) according to a sixth aspect is the contact device (2) according to the fifth aspect, wherein the first protrusion (48a, 48b) is a main surface of the partition wall (18) opposite to the pair of contacts (31, 32). It is located at (18k).

  According to this structure, the partition wall (18) can be arranged between the first protrusion (48a, 48b) and the contact portion (6). This can prevent the arc generated from the contact portion (6) by the partition wall (18) from coming into contact with the first protruding portions (48a, 48b). As a result, the heat dissipation of the shielding member (13) can be improved.

  A contact device (2) according to a seventh aspect is the contact device (2) according to the sixth aspect, wherein the first protrusions (48a, 48b) include a face (18a) facing the case (12) and a case (12) in the partition wall (18). ) Is placed between.

  According to this structure, the shielding member (13) can be positioned by the case (12) and the partition wall (18).

  The contact device (2) according to the eighth aspect is the contact device (2) according to any one of the fifth to seventh aspects, wherein the main surface (18k) of the partition wall (18) is opposite to the pair of contacts (31, 32). The metal member (yoke 29) is exposed. The first protruding portion (48b) is arranged so as to avoid the exposed portion (29c) exposed from the main surface of the metal member (29).

  According to this configuration, it is possible to prevent the shield member (13) and the exposed portion (29c) of the metal member (29) from electrically contacting each other.

  A contact device (2) according to a ninth aspect is the contact device (2) according to any one of the first to eighth aspects, wherein the shielding member (13) is opposite to the crossing direction (rearward direction) from the main portion (47). It has the 2nd protrusion part (49a, 49b) which protrudes in a direction. The second protrusions (49a, 49b) contact the inner circumference of the opening (23).

  According to this configuration, the second protrusion (49a, 49b) and the inner periphery of the opening (23) are in contact with each other, whereby the position of the shielding member (13) on the partition wall (18) can be positioned.

  In the contact device (2) according to the tenth aspect, in any one of the first to ninth aspects, the main portion (47) is arranged in the second space (S5).

  According to this structure, the main part (47) of the shielding member (13) can be attached to the partition wall (18) from the outside of the partition wall (18) (the side opposite to the contact part (6)). As a result, workability when mounting the shielding member (13) on the partition wall (18) can be improved.

  In the contact device (2) according to the eleventh aspect, in any one of the first to tenth aspects, the shielding member (13) is made of metal.

  According to this configuration, it is possible to easily confirm whether or not the contact device (2) is provided with the shielding member (13) by a nondestructive inspection (overcurrent sensor or X-ray inspection device) for the contact device (2). .

  The contact device (2) according to the twelfth aspect is the one of any one of the first to fourth aspects, further including a terminal (11). The terminal (11) is arranged on the outer main surface of the partition wall (17) and is electrically connected to one contact (31) of the pair of contacts (31, 32 ). The terminal (11) functions as a shielding member.

  According to this configuration, the opening (70) can prevent the partition wall (17) from being damaged by the arc generated when the pair of contacts (31, 32) is opened. Further, since the terminal (11) covers the opening (70), it is possible to prevent the arc from passing through the opening (70) and damaging the case (12) outside the opening (70).

  A contact device (2) according to a thirteenth aspect is the contact device (2) according to any one of the first to eleventh aspects, wherein the partition wall (18) is the first partition wall (18) and the opening (23) is the first. The opening (23) is defined as the first intersecting direction. The contact device (2) includes a second partition wall (17) and a terminal (11). The second partition wall (17) is provided at a position in the second intersecting direction which is different from the first intersecting direction and intersects with the contact portion (6) in a direction in which the pair of contact points (31, 32) face each other. ing. The second partition wall (17) partitions the inside (S4) of the case (12) into a first space (S1) including the contact portion (6) and a third space (S7) not including the contact portion (6). .. The terminal (11) is provided on the outer main surface of the second partition wall (17) and is electrically connected to one contact (31) of the pair of contacts (31, 32 ). The second partition wall (17) has a second opening (70) connecting the first space (S1) and the third space (S7). At least a part of the second opening (70) overlaps the space (S6) between the pair of contacts (31, 32) in the open state in the direction parallel to the second intersecting direction. The terminal (11) has a main portion (111) that covers at least a part of the second opening (70).

  According to this configuration, the second opening (70) can prevent the second partition wall (17) from being damaged by the arc generated when the pair of contacts (31, 32) are separated. Further, since the terminal (11) covers the second opening (70), the arc passes through the second opening (70) and damages the case (12) outside the second opening (70). Can be suppressed.

  An electromagnetic relay (1) according to a fourteenth aspect includes a contact device (2) according to any one of the first to thirteenth aspects and an electromagnet device (3). The electromagnet device (3) switches the pair of contacts (31, 32) to one of an open state and a closed state.

  According to this structure, the electromagnetic relay (1) having the effect of the contact device (2) can be provided.

1 Electromagnetic relay 2 Contact device 6 Contact part 12 Case 13 Shielding member 17 Right wall part (2nd partition wall)
18 Rear wall part (first partition wall, partition wall)
18k rear surface (main surface)
23 Opening (first opening)
31 Fixed contact (contact)
32 Moving contacts (contacts)
47 Main part 48a, 48b 1st protrusion part 49a, 49b 2nd protrusion part 70 Opening part (2nd opening part)
111 main part S1 internal space (first space)
S4 Internal space S5 Gap space (second space)
S6 space S7 space (third space, second space)

Claims (14)

A contact portion having a pair of contacts, the contact portion being switched to one of the contact closed state in which the pair of contacts are in contact and the contact open state in which the pair of contacts are separated,
A case accommodating the contact portion,
The case is provided in a first space that includes the contact portion and a second space that does not include the contact portion, the pair of contacts being provided at positions in an intersecting direction intersecting a direction in which the contact portions face each other. A partition wall that partitions the interior of the
A shielding member provided on the partition wall,
The partition wall has an opening that connects the first space and the second space,
At least a part of the opening portion overlaps a space between the pair of contacts in the open state in a direction parallel to the intersecting direction,
The shielding member has a main portion that covers at least a part of the opening,
Contact device. The heat resistance of the shielding member is higher than the heat resistance of the partition wall,
The contact device according to claim 1. The thermal conductivity of the shielding member is higher than the thermal conductivity of the partition wall,
The contact device according to claim 1. The shielding member is provided at a position where the arc generated from the contact portion can contact.
The contact device according to claim 1. The shielding member further includes a first protruding portion protruding from the main portion,
The first protrusion overlaps a region around the opening in the partition wall in a direction parallel to the intersecting direction,
The contact device according to any one of claims 1 to 4. The first protrusion is arranged on a main surface of the partition wall opposite to the pair of contacts.
The contact device according to claim 5. The first protruding portion is disposed between a surface of the partition wall facing the case and the case.
The contact device according to claim 6. A metal member is exposed on the main surface of the partition wall opposite to the pair of contacts,
The first protruding portion is arranged so as to avoid an exposed portion exposed from the main surface of the metal member,
The contact device according to any one of claims 5 to 7. The shielding member has a second protruding portion protruding from the main portion in a direction opposite to the intersecting direction,
The second protrusion contacts the inner circumference of the opening,
The contact device according to any one of claims 1 to 8. The main portion is disposed in the second space,
The contact device according to any one of claims 1 to 9. The shielding member is made of metal,
The contact device according to any one of claims 1 to 10. Arranged on the outer main surface of the partition wall, further comprising a terminal electrically connected to one of the pair of contacts,
The contact device according to claim 1, wherein the terminal functions as the shielding member. The partition wall is the first partition wall,
The opening is a first opening,
The crossing direction is the first crossing direction,
The pair of contacts are provided at a position in a second intersecting direction that is different from the first intersecting direction with respect to the contact portion, and the pair of contacts are arranged in a position in a second intersecting direction different from the first intersecting direction. A second partition wall for partitioning the interior of the case into a space and a third space not including the contact portion;
A terminal provided on the outer main surface of the second partition wall and electrically connected to one of the pair of contacts,
The second partition wall has a second opening that connects the first space and the third space,
At least a part of the second opening overlaps with a space between the pair of contacts in the open state in a direction parallel to the second intersecting direction,
The terminal has a main portion that covers at least a part of the second opening,
The contact device according to any one of claims 1 to 11. A contact device according to any one of claims 1 to 13,
An electromagnet device that switches the pair of contacts to one of the open state and the closed state,
Electromagnetic relay.

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