JP6020985B2 - Electromagnetic relay - Google Patents

Description

  The present invention relates to an electromagnetic relay.

  Generally, an electromagnetic relay is formed by housing an electromagnetic relay main body having a coil bobbin around which a coil is wound and a contact portion in a case. And if such an electromagnetic relay is operated, a coil will be heated and the water | moisture content stored in the coil winding part of the electromagnetic relay main-body part will vaporize, and will be discharge | released as water vapor | steam. At this time, if the electromagnetic relay is exposed to a low temperature atmosphere, water vapor is condensed and water droplets adhere to the case inner surface or the coil itself, and the adhered water droplets may flow down and reach the contact portion. And when the water drop which flowed down to the contact part freezes, an electromagnetic relay will raise | generate malfunction.

  Therefore, an electromagnetic relay provided with a cooling collection unit that collects moisture released from the coil and that can actively collect moisture released from the coil at a place other than the contact point by the cooling collection unit. It has been proposed (see, for example, Patent Document 1).

JP 2012-049054 A

  However, in the above prior art, the contact portion is disposed below the coil bobbin around which the coil is wound. For this reason, when water droplets adhering to the coil flow down, the water droplets may reach the contact portion, and a malfunction may occur in the contact portion, which may cause malfunction of the electromagnetic relay.

  Then, an object of this invention is to obtain the electromagnetic relay which can suppress further causing malfunctioning.

In order to achieve the above object, a first feature of the present invention is that a coil bobbin having a pair of flange portions respectively provided at an upper end portion and a lower end portion of a trunk portion around which a coil is wound , An electromagnetic relay body having an armature disposed and swung by the coil; a yoke disposed on the lower end side; the coil bobbin, a contact portion, the armature, and the yoke; A case that houses the relay main body, and a water droplet collecting portion that collects water droplets of the coil via the communication hole of the flange portion on the lower end side, and the water droplet collecting portion includes the lower end The gist is to have a collection space surrounded by the flange portion and the yoke on the part side .

The second feature is summarized in that a coil cover that is fitted between the pair of flange portions of the coil bobbin and covers the outer periphery of the coil is attached to the coil bobbin.

A third feature is that the coil cover is formed in a cylindrical shape covering the outer periphery of the coil, and includes a first cover body and a second cover body obtained by dividing the cylindrical coil cover into two parts. The gist.
The fourth feature is summarized in that the flange portion on the lower end side includes an upper wall portion provided with the communication hole and a side wall portion forming the collection space.
The fifth feature is summarized in that the contact portion is disposed on a side or above the coil bobbin.

  According to the present invention, the contact portion is disposed on the side or upper side of the coil bobbin, and the water droplet collecting portion is provided below the coil bobbin. For this reason, even if water droplets attached to the coil flow down, they can be captured by the water droplet collecting part, and moisture is prevented from reaching the contact part, causing the electromagnetic relay to malfunction. Can be further suppressed.

It is sectional drawing of the electromagnetic relay concerning one Embodiment of this invention. It is a perspective view of a coil bobbin concerning one embodiment of the present invention. It is a perspective view of the coil cover concerning one Embodiment of this invention. FIG. 4 is a perspective view showing a state where the coil cover shown in FIG. 3 is attached to the coil bobbin shown in FIG. 2. It is the perspective view which showed the modification of the coil bobbin concerning one Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  As shown in FIG. 1, the electromagnetic relay 10 according to the present embodiment includes an electromagnetic relay main body 20 and a box-shaped case 5 that houses the electromagnetic relay main body 20.

  1 and 2, the electromagnetic relay main body 20 is separated from the coil bobbin 1 around which the coil 11 is wound and the coil 11 of the coil bobbin 1 from the side or above (in this embodiment, the case 5). And a contact portion 9 disposed in the upper right corner.

  The coil bobbin 1 has a body portion 12 formed in a cylindrical shape by an electrically insulating material such as a synthetic resin, and the coil 11 described above is wound around the outer periphery of the body portion 12. The coil bobbin 1 includes a pair of flange portions 13 and 14 provided at the upper end portion (one end portion) and the lower end portion (the other end portion) of the body portion 12, respectively. In the present embodiment, the upper flange portion 13 is formed in a bowl shape, while the lower flange portion 14 is an upper wall portion 14a and a side wall portion 14b erected on the outer peripheral side of the upper wall portion 14a. And is formed in a hollow box shape whose lower side is open.

  As shown in FIG. 1, the coil bobbin 1 has an L-shaped yoke 7 having a lateral wall portion 7 a and a vertical wall portion 7 b, and one end side at the tip (upper end) of the vertical wall portion 7 b of the yoke 7. It arrange | positions between the armatures 8 of the magnetic material supported pivotably. At this time, a spring 18 is attached and fixed to the side surface of the vertical wall portion 7b and the upper surface of the armature 8, and the movable contact 16 and the fixed contact 17 described later are brought into a non-contact state by the spring 18 ( The vertical wall portion 7b and the armature 8 are held in a V-shape that is 90 ° or more. The body 12 of the coil bobbin 1 is provided with an iron core (not shown) that penetrates the center of the body 12, and the upper end of the iron core is disposed opposite to the armature 8.

  The contact portion 9 includes a movable contact 16 provided on the front end side (right end side) of the mounting plate 8 a fixed on the upper side of the armature 8, and a fixed contact 17 disposed opposite to the movable contact 16. ing. As shown in FIG. 1, the mounting plate 8a protrudes from the armature 8 and extends laterally so as to be separated from the coil 11, and the coil 11 and the mounting plate 8a are connected to the distal end side of the extended mounting plate 8a. The movable contact 16 is arranged at a distance. Further, in the present embodiment, the fixed contact 17 is disposed so as to face the movable contact 16 on a protruding wall 5 a that protrudes toward the front side of the drawing on the back wall of the case 5.

  When the electromagnetic relay main body 20 configured in this way energizes the coil 11 to excite the iron core (not shown) of the body 12, the armature 8 is attracted to the upper end of the iron core, and the armature. 8 swings downward against the spring 18. Accordingly, in the excited state of the coil bobbin 1, the armature 8 swings downward, so that the movable contact 16 comes into contact with the fixed contact 17 (ON) as shown in FIG.

  On the other hand, in the non-excited state of the coil bobbin 1, that is, when the coil 11 is not energized, the armature 8 is kept in contact with the upper end of the body 12 by the spring 18 (the above-mentioned 90 ° or more V shape) The movable contact 16 is separated from the fixed contact 17 and is in a non-contact state (off).

  In addition, the contact structure of the contact part 9 is not restricted to this, What is necessary is just a structure provided with the contact turned on and off by the vertical swing of the armature 8. The number of movable contacts 16 and fixed contacts 17 can be set as appropriate.

  By the way, in such an electromagnetic relay body 20, when the coil 11 is energized and the electromagnetic relay 10 is operated, the coil 11 has heat. Into water vapor, and the water vapor is released from the coil 11.

  At this time, when the electromagnetic relay 10 is exposed to a low temperature atmosphere, water vapor is condensed and water droplets adhere to the inner surface of the case 5 or the coil 11 itself, and the adhered water droplets flow down to reach the contact portion 9. There is a risk.

  Therefore, in the present embodiment, as described above, the contact portion 9 is separated from the coil bobbin 1 and is disposed on the side or upper side of the coil bobbin 1, and the water droplet collecting portion 6 is provided below the coil bobbin 1.

  Specifically, as shown in FIG. 1, in the present embodiment, the space inside the side wall portion 14 b in the lower flange portion 14 is the water droplet collection portion 6. At this time, in this embodiment, since the coil bobbin 1 is placed on the lateral wall portion 7a of the yoke 7, the water droplet collecting portion 6 includes the upper wall portion 14a, the side wall portion 14b, and the yoke of the flange portion 14. 7 is a space surrounded by the lateral wall 7a.

  Further, a pair of slits 17 communicating with the water droplet collection unit 6 are formed in the upper wall portion 14a of the flange portion 14. When the water droplets flow down through the slits 17, the water droplets are collected by the water droplet collection unit 6a. It can be led to.

  In the present embodiment, a coil cover 2 that covers the outer periphery of the coil 11 and blocks water vapor released from the coil 11 is attached between the pair of flange portions 13 and 14 of the coil bobbin 1.

  As shown in FIGS. 3 and 4, the coil cover 2 of the present embodiment is formed in a rectangular cylindrical shape covering the outer periphery of the coil 11, and a pair of cover bodies obtained by dividing the rectangular cylindrical coil cover 2 into two parts. It consists of three and four. That is, the coil cover 2 of the present embodiment has a substantially U-shaped (substantially U-shaped) first cover body 3 having a bottom wall 3a and a pair of side walls 3b provided at both ends of the bottom wall 3a. And a substantially U-shaped (substantially U-shaped) second cover body 4 having a bottom wall 4a and a side wall 4b. In this embodiment, the coil cover 2 constituted by the pair of cover bodies 3 and 4 is fitted between the pair of flange portions 13 and 14 of the coil bobbin 1 and attached.

  Thus, in this embodiment, since the coil cover 2 was fitted between the pair of flange portions 13 and 14, as shown in FIG. , 14 and the coil cover 2 are enclosed. At this time, the surrounding space and the water droplet collecting portion 6 are sealed by the upper flange portion 13 of the coil bobbin 1, the coil cover 2, the lower flange portion 14, and the lateral wall portion 7 a of the yoke 7, Is a completely isolated space.

  The slit 17 is provided on the upper wall portion 14a of the lower flange portion 14 located inside the coil cover 2 in a state where the coil cover 2 is fitted between the pair of flange portions 13 and 14. Is preferred.

  Thus, in the electromagnetic relay 10 of this embodiment, since the water droplet collection part 6 is provided under the coil bobbin 1, even if the water droplet adhering to the coil 11 itself flows down, the water droplet collection part. 6 can be captured. In addition, since the coil cover 2 is attached between the pair of flange portions 13 and 14 of the coil bobbin 1, moisture that has been released from the coil 11 and adhered to the inner surface of the case 5 is blocked by the coil cover 2. Will be able to capture. Even if the water vapor blocked and captured by the coil cover 2 condenses on the inner surface of the coil cover 2, water droplets generated by the dew condensation flow down to the water droplet collection unit 6 via the slit 17 of the upper wall portion 14a. Can be guided. Therefore, even if water droplets are generated with the operation of the electromagnetic relay 10, the water droplets are guided to the enclosed space completely separated from the contact portion 9, the water droplet collecting portion 6, and the water droplet collecting portion 6 As a result, the malfunction of the electromagnetic relay 10 can be reliably suppressed.

  As described above, in the present embodiment, the contact portion 9 is separated from the coil bobbin 1 and is disposed on the side or upper side of the coil bobbin 1, and the water droplet collecting portion 6 is provided below the coil bobbin 1. . Therefore, even if the water droplets adhering to the coil 11 flow down, the water droplet collecting unit 6 can capture the water, and the moisture is prevented from reaching the contact unit 9 so that the electromagnetic relay 10 malfunctions. It is possible to further suppress the occurrence.

  In the present embodiment, a coil cover 2 that covers the outer periphery of the coil 11 is attached to the coil bobbin 1. Therefore, the water vapor released from the coil 11 can be blocked by the coil cover 2, and the water droplet reaches the contact portion 9 by flowing the blocked and trapped water down to the water droplet collecting section 6. Can be suppressed.

  Furthermore, in this embodiment, the coil cover 2 is fitted and attached between the pair of flange portions 13 and 14 of the coil bobbin 1. Therefore, the coil 11 can be sealed with the coil cover 2 and the pair of flange portions 13 and 14 of the coil bobbin 1 so that the coil 11 can be disposed in a space completely separated from the contact portion 9. The released water vapor can be reliably blocked. Therefore, it can suppress more reliably that the electromagnetic relay 1 raise | generates a malfunctioning. In addition, there is an advantage that the coil cover 2 can be made compact as compared with the configuration in which the entire coil portion including the coil bobbin 1 is covered from the outside.

  At this time, the lower flange portion 14 (upper wall portion 14a) is formed with a slit 17 communicating with the water droplet collecting portion 6. Therefore, the water blocked by the coil cover 2 can be guided to the water droplet collection unit 6, and the induced water droplet is frozen by the water droplet collection unit 6, so that the water droplet is frozen by the contact portion 9. It can be surely prevented.

  Furthermore, in the present embodiment, the coil cover 2 is formed in a cylindrical shape covering the outer periphery of the coil 11, and the first cover body 3 and the second cover body 4 obtained by dividing the cylindrical coil cover 2 into two parts. Consists of. Therefore, the mounting operation of the coil cover 2 can be simplified. Particularly, in the configuration in which the coil cover 2 is fitted between the pair of flange portions 13 and 14 of the coil bobbin 1, the fitting mounting operation can be easily performed. Can do.

  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above embodiments, and various modifications can be made.

  For example, in the above embodiment, the water droplet collecting part 6 is formed as a sealed space part surrounded by the upper wall part 14a, the side wall part 14b and the lateral wall part 7a of the yoke 7 in the flange part 14, but FIG. A coil bobbin 1A may be formed as in the modification shown in FIG. In other words, the side wall portions 14b on the two diagonal sides of the lower flange portion 14A may be excluded, and the water droplet collection portion 6 may be formed as an unsealed space portion. In this case, there is an advantage that it is possible to suppress the water droplets from being filled in the water droplet collecting unit 6.

  Moreover, in the said embodiment, although the coil cover 2 was formed in the rectangular cylinder shape which covers the outer periphery of the coil 11, you may make it form in a cylindrical shape.

  The electromagnetic relay main body 20 accommodated in the case 5 includes a coil bobbin 1 having a coil 11 that excites an iron core by energization, and a contact portion 9 that is switched on and off by the excitation of the iron core. Just do it.

  Further, the case 5, the coil bobbin 1, the coil cover 2, and other detailed specifications (shape, size, layout, etc.) can be changed as appropriate.

DESCRIPTION OF SYMBOLS 1 Coil bobbin 2 Coil cover 5 Case 6 Water drop collection part 9 Contact part 10 Electromagnetic relay 11 Coil 12 Trunk part 13 Flange part 14 Flange part 17 Slit 20 Electromagnetic relay main-body part

Claims (5)

A coil bobbin having a pair of flange portions respectively provided at an upper end portion and a lower end portion of a trunk portion around which a coil is wound ;
An armature disposed on the upper end side and swung by the coil;
A yoke disposed on the lower end side;
An electromagnetic relay body having the coil bobbin, the contact portion, the armature, and the yoke ;
A case for housing the electromagnetic relay main body,
A water droplet collecting part for collecting the water droplets of the coil through the communication hole of the flange part on the lower end side;
With
The said water droplet collection part has the collection space enclosed by the said flange part by the said lower end part side and the said yoke, The electromagnetic relay characterized by the above-mentioned . The electromagnetic relay according to claim 1 , wherein a coil cover that fits between the pair of flange portions of the coil bobbin and covers an outer periphery of the coil is attached to the coil bobbin. The said coil cover is formed in the cylinder shape which covers the outer periphery of the said coil, and consists of the 1st cover body and 2nd cover body which divided the said cylindrical coil cover into 2 parts, It is characterized by the above-mentioned. The electromagnetic relay described in 1. 2. The electromagnetic relay according to claim 1, wherein the flange portion on the lower end side includes an upper wall portion provided with the communication hole and a side wall portion forming the collection space. The electromagnetic relay according to claim 1, wherein the contact portion is disposed on a side or upper side of the coil bobbin.

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