JP4943486B2 - Toggle switch - Google Patents

Description

  The present invention relates to a surface mount type toggle switch, for example.

  With the downsizing of electronic devices, switches mounted on electronic devices are also downsized. This miniaturized switch is mounted on the surface of a printed circuit board, and the back surface of the circuit board can be used for other purposes. When mounting such a surface-mount type switch on a board, generally, cream-like solder is applied on the land of the printed wiring formed on the surface of the board, and the terminal of the switch is placed on this solder. The In this state, after the solder is reflowed, it is cooled, and the terminal of the switch is electrically and mechanically connected to the printed wiring on the board.

  As described above, the surface-mount type switch in which the terminal is connected to the printed wiring by reflow soldering can sufficiently secure the soldering strength as compared with the case where the terminal is soldered on the back surface of the printed board by the solder dip. There is a tendency not to. In addition, the user's operating force when switching the on / off state of the switch varies, and an unexpectedly large force may be applied to the operator or the switch housing. As described above, when a large force is applied to the operation element or the housing, the terminal of the switch fixed by the solder may be peeled off from the printed wiring.

  In order to prevent such terminal peeling, a technology has been developed to prevent terminal peeling from external forces on the operating element and housing by inserting part of the terminal and part of the housing into the through hole provided on the printed circuit board. (For example, refer to Patent Document 1 and Patent Document 2).

  However, the toggle switch is provided with an operation element that is rotatable with respect to the housing on one surface of the housing and a terminal on the other surface parallel to the one surface. The terminal is bent and has a connection portion connected to the printed wiring of the printed board. When the toggle switch having such a configuration is mounted on the substrate with the operation element parallel to the substrate, even when the housing is inclined with respect to the printed substrate, or even when the housing is parallel to the printed substrate. When there is a processing error in the terminal, the terminal may not contact the printed wiring and solder sufficiently. When the solder is reflowed in this state, it is difficult to reliably connect the terminals to the printed wiring, and the terminals may be separated from the solder or the printed wiring during operation of the operation element.

JP 2005-56784 A JP 2000-113763 A

  The present invention is intended to provide a surface mount type toggle switch capable of reliably connecting a terminal to a printed wiring and capable of ensuring a sufficient connection state of the terminal with respect to the operation of the operation element. Is.

  The aspect of the toggle switch of the present invention has a first surface, a second surface parallel to the first surface, and third to sixth surfaces connecting the first surface and the second surface. And a switch mechanism is housed therein, an operator for operating the switch mechanism is rotatably held on the first surface, one end of the second surface is connected to the switch mechanism, and the other end A housing in which a plurality of first terminals having a connection portion connected to a printed wiring provided on a printed circuit board in parallel with the third surface is disposed, and orthogonal to the third surface of the housing At least on the fourth surface, provided in the vicinity of the first surface and projecting in a direction orthogonal to the third surface, and having a second terminal inserted into a through hole provided in the printed circuit board, The connecting portion of the first terminal is positioned in the protruding direction of the second terminal from the third surface. The second terminal has a first stopper wider than the diameter of the through hole at the same position as the connection portion, and a first retaining portion having a width substantially equal to the diameter of the through hole, The length from the first stopper to the tip is set longer than the thickness of the printed board.

  The present invention provides a surface mount type toggle switch capable of reliably connecting a terminal to a printed wiring and ensuring a sufficient connection state of the terminal with respect to operation of the operation element.

The perspective view which shows 1st Embodiment of the toggle switch which concerns on this invention. Sectional drawing along the II-II line | wire shown in FIG. Sectional drawing seen from the upper surface of the toggle switch shown in FIG. The side view which shows the state which mounted the toggle switch shown in FIG. 1 on the printed circuit board. The figure which shows the state which mounted the toggle switch which concerns on 1st Embodiment on the printed circuit board, and reflowed the solder. The side view which shows the comparative example of 1st Embodiment. The side view which shows the other comparative example of 1st Embodiment. The side view which shows the 2nd Embodiment of this invention.

  Embodiments of the present invention will be described below with reference to the drawings.

  1, 2, and 3 show a toggle switch 11 according to the first embodiment. 1, 2, and 3, the housing 12 has, for example, a substantially rectangular parallelepiped shape, and includes a first surface 12-1, a second surface 12-2 parallel to the first surface 12-1, and a first surface 12-1. And the second surface 12-2 are third to sixth surfaces 12-3 to 12-6. The second surface 12-2 is, for example, a terminal plate that holds a plurality of terminals, and is attached to the third to sixth surfaces 12-3 to 12-6.

  As shown in FIGS. 2 and 3, the housing 12 has a housing portion 12-7 opened from the first surface 12-1 to the second surface 12-2. A switch mechanism 13 is provided in the accommodating portion 12-7. The switch mechanism 13 is, for example, a slide switch, and is held by a common contact 13-1, fixed contacts 13-2 and 13-3 disposed on both sides of the common contact 13-1, and a slide member 13-4. It is comprised by the movable contact piece 13-5. The common contact 13-1 and the fixed contacts 13-2 and 13-3 are disposed on the bottom (second surface 12-2) of the housing portion 12-7.

  The common contact 13-1 and the fixed contacts 13-2, 13-3 are integrally formed at one end of the terminals 14-1, 14-2, 14-3 inserted through the second surface 12-2, respectively. Yes. The other ends of these terminals 14-1, 14-2, 14-3 are bent to the third surface 12-3 side of the housing 12, as shown in FIGS. Is formed. These connecting portions 14-4 are parallel to the third surface 12-3 and slightly protrude from the third surface 12-3. When the toggle switch 11 is mounted on the printed circuit board, The formed printed wiring is contacted.

  A cap 15 is attached to the first surface 12-1 of the housing 12. An intermediate portion of the operation element 16 is rotatably held by the cap 15. One end of the operating element 16 is located outside the cap 15, and the other end is located in the accommodating portion 12-7. A recess 16-1 is formed in the operation element 16 from the other end side to the one end side. A spring 17 and a pressing element 18 are accommodated in the recess 16-1. The pressing element 18 is urged by a spring 17 in a direction protruding from the recess 16-1. As shown in FIGS. 2 and 3, the distal end of the pressing element 18 is engaged with the slide member 13-4, and the cam 12 formed on the bottom of the accommodating portion 12-7, that is, the second surface 12-2. It is in contact with -8. When the operating element 16 is rotated in the direction of the arrow shown in FIG. 3, the pressing element 18 slides on the surface of the cam 12-7, and the movable contact piece 13-5 is slid by the slide member 13-4. Then, the connection state between the common contact 13-1 and the fixed contacts 13-2 and 13-3 is switched, and the switch is switched. Further, when the pressing element 18 gets over the apex of the cam 12-8 in accordance with the operation of the operating element 16, a click feeling is generated in the operating element 16.

  A frame 19 is attached to the surface of the housing 12. As shown in FIGS. 1 and 3, the frame 19 is disposed along, for example, the first, fourth, and sixth surfaces 12-1, 12-5, and 12-6 of the housing 12. Support terminals 20 and 21 are respectively formed on a portion corresponding to the fourth surface 12-4 of the frame 19 and a portion corresponding to the sixth surface 12-6 parallel to the fourth surface 12-4. .

  The support terminal 20 is disposed in the vicinity of the first surface 12-1 of the housing 12, and the support terminal 21 is disposed in the vicinity of the second surface 12-2. The support terminal 20 is located at, for example, the length from the distal end of the operation element 16 to the distal ends of the terminals 14-1, 14-2 and 14-3, that is, substantially at the center of the entire length of the toggle switch 11.

  As shown in FIG. 2, stoppers 20-1 and 21-1 are provided on the support terminals 20 and 21. The stopper 20-1 protrudes from the third surface 12-3 of the housing 12, and the protruding position is substantially the same as the connection portion 14-4 formed on the terminals 14-1, 14-2, 14-3. ing. The stopper 21-1 protrudes from the third surface 12-3 and is retracted from the positions of the stopper 20-1 and the connecting portion 14-4. That is, the positional relationship between the stoppers 20-1 and 21-1 and the connecting portion 14-4 is as shown in the broken line in FIG. 2, and the receding distance of the stopper 21-1 with respect to the stopper 20-1 and the connecting portion 14-4. L1 is, for example, 0.1 mm.

  Further, the support terminals 20 and 21 have retaining portions 20-2 and 21-2. These retaining portions 20-2 and 21-2 are formed in, for example, a wedge shape whose width is narrowed toward the tips of the support terminals 20 and 21. The widest portions of the retaining portions 20-2 and 21-2 are set to be approximately equal to the diameter of the through hole formed in the printed board.

  The lengths of the support terminals 20 and 21 from the stoppers 20-1 and 21-1 to the tip are set slightly longer than the thickness of the printed circuit board, and the support terminal is mounted in a state where the toggle switch 11 is mounted on the surface of the printed circuit board. The tips of 20 and 21 protrude slightly from the back surface of the printed board.

  FIG. 4 shows a state where the toggle switch 11 having the above configuration is mounted on the printed circuit board 31. In the mounted state, the support terminals 20 and 21 of the toggle switch 11 are inserted into through holes 32 and 33 provided in the printed circuit board 31. Cream solder (not shown) is applied on the through holes 32 and 33, and when the support terminals 20 and 21 are inserted into the through holes 32 and 33, the cream solder is also pushed into the through holes 32 and 33. At this time, the stopper 20-1 of the support terminal 20 is in contact with the surface of the printed circuit board 31, and the connection portions 14-4 of the terminals 14-1, 14-2, 14-3 are not shown on the printed wiring and the printed wiring. It is contacted with cream solder applied to the surface. Further, the stopper 21-1 of the support terminal 21 is separated from the surface of the printed board 31.

  In the above state, the connection portion 14-4 is fixed to the printed wiring by reflowing the solder. Furthermore, the solder pushed into the through holes 32 and 33 by the support terminals 20 and 21 is melted and flows out to the back surface of the printed circuit board 31 and is solidified around the support terminals 20 and 21 protruding to the back surface of the printed circuit board 31. The Therefore, as shown in FIG. 5, solder fillets 41 are formed around the support terminals 20 and 21.

  The stoppers 20-1 and 21-1 also have a function of improving the operability of the miniature toggle switch operation element 16 by mounting the toggle switch on the printed circuit board and then separating the housing 12 from the printed circuit board by a certain distance. is doing.

  According to the first embodiment, the terminals 14-1, 14-2, 14-3 are parallel to the third surface 12-3 of the housing 12 and are connected to the connecting portion 14- protruding from the third surface 12-3. 4, the support terminal 20 has a stopper 20-1 at the same position as the connecting portion 14-4, and the support terminal 21 is located between the stopper 20-1 and the third surface 12-3. It has a stopper 21-1. For this reason, when the toggle switch 11 is mounted on the printed circuit board 31, the connection portions 14-4 of the terminals 14-1, 14-2, and 14-3 can be reliably brought into contact with the printed wiring and the cream solder, and soldered reliably. It is possible.

  On the other hand, when the stoppers 20-1 and 21-1 of the support terminals 20 and 21 are formed at the same position as in the comparative example shown in FIG. When the position of the connecting portion 14-4 is closer to the third surface 12-3 than the positions of the stoppers 20-1 and 21-1 of the support terminals 20 and 21 due to an error in the bending angle, the toggle switch 11 is connected to the printed circuit board 31. When mounted on the stopper, the stopper 21-1 of the support terminal 21 comes into contact with the printed circuit board 31 before the connection portion 14-4, and the connection portion 14-4 cannot sufficiently contact the printed wiring or cream solder. It will not be soldered. That is, as shown in FIG. 4, the horizontal length L2, the vertical length L3, and the connection portion length L4 of the terminals 14-1 to 14-3 are, for example, L2 = 2.3 mm and L3 = It is extremely short with 1.9 mm and L4 = 0.7 mm. For this reason, a processing error of the terminal may appear as a mounting error when mounted on the printed board.

  However, in the case of the first embodiment, the stopper 21-1 of the support terminal 21 is positioned between the stopper 20-1 of the support terminal 20 and the third surface 12-3. For this reason, when the toggle switch 11 is mounted on the printed circuit board 31, the stopper 20-1 of the support terminal 20 comes into contact with the printed circuit board 31, and thereafter, the connection portion 14-4 comes into contact with the printed wiring or cream solder. Therefore, even when there is a processing error in the terminals 14-1 to 14-3 and the connection part 14-4, the connection part 14-4 can be reliably contacted with the printed wiring and the cream solder, and can be reliably soldered. .

  The support terminals 20 and 21 have retaining portions 20-2 and 21-2 having a width substantially equal to the diameter of the through holes 32 and 33. For this reason, a big stress can be generated with respect to the drawing load. For this reason, the terminal connection state can be stably maintained even when solder is reflowed or when a load is applied to the operation element 16 or the housing 12 after mounting.

  On the other hand, when the shape of the support terminals 20 and 21 is straight and the diameter of the support terminals 20 and 21 is smaller than the diameter of the through holes 32 and 33 as in the comparative example shown in FIG. And a sufficient stress cannot be obtained with respect to the pulling-out load on the housing, a large force is applied to the terminal connection portion, the connection portion 14-4 is damaged, or the connection portion 14-4 is peeled off from the printed wiring. there's a possibility that. However, 1st Embodiment can prevent such a thing and can ensure the connection state of the connection part 14-4.

  In the case of the first embodiment, as shown in FIG. 5, the tips of the support terminals 20, 21 protrude from the back surface of the printed circuit board 31, so that they are formed at the tips of the protruding support terminals 20, 21. By confirming the shape of the solder fillet 41, it can be confirmed whether or not the soldering is completed. Therefore, the reliability of the soldering strength with respect to the support terminals 20 and 21 can be improved.

(Second Embodiment)
FIG. 8 shows a second embodiment. In the first embodiment, the frame 19 has two support terminals 20 and 21 at positions corresponding to the fourth and sixth surfaces 12-4 and 12-6 of the housing 12. On the other hand, in the second embodiment, the frame 19 is provided with one support terminal 20 at a position corresponding to the fourth and sixth surfaces 12-4 and 12-6. The configuration of the support terminal 20 is the same as that of the first embodiment.

  In the case of the second embodiment, since the support terminal 21 in the first embodiment is not provided, the stress against the pulling load is slightly reduced as compared with the first embodiment. However, when the toggle switch 11 is mounted on the printed board, the connecting portion 14-4 can be reliably brought into contact with the printed wiring and the cream solder as in the first embodiment. Therefore, according to the second embodiment, it is possible to reliably solder the connecting portion 14-4 as in the first embodiment.

  In the first and second embodiments, the support terminals 20 and 21 are provided corresponding to the fourth and sixth surfaces 12-4 and 12-6 of the housing 12, but the present invention is not limited thereto. The housing 12 may be provided corresponding to one of the fourth surface 12-4 and the sixth surface 12-6.

  Of course, various modifications can be made without departing from the scope of the present invention.

  DESCRIPTION OF SYMBOLS 11 ... Toggle switch, 12 ... Housing, 12-1 to 12-6 ... 1st thru | or 6th surface, 12-7 ... Housing part, 13 ... Switch mechanism, 14-1, 14-2, 14-3 ... Terminal , 14-4 ... connection part, 16 ... operator, 20, 21 ... support terminal, 20-1, 21-1 ... stopper, 20-2, 21-2 ... retaining part.

Claims (2)

It has a first surface, a second surface parallel to the first surface, and third to sixth surfaces connecting the first surface and the second surface, and a switch mechanism is accommodated therein. An operating element for operating the switch mechanism is rotatably held on the first surface, one end of the second surface is connected to the switch mechanism, and the other end is parallel to the third surface. A housing in which a plurality of first terminals having connection portions connected to printed wiring provided on the printed circuit board are disposed;
At least a fourth surface orthogonal to the third surface of the housing, provided in the vicinity of the first surface and protruding in a direction orthogonal to the third surface, and inserted into a through hole provided in a printed circuit board A second terminal to be provided,
The connecting portion of the first terminal is positioned in a protruding direction of the second terminal from the third surface, and the second terminal is wider than the diameter of the through hole at the same position as the connecting portion. 1 stopper and a first retaining portion having a width substantially equal to the diameter of the through hole, and the length from the first stopper to the tip is set longer than the thickness of the printed board. Toggle switch featuring. A third terminal which is provided in the fourth surface of the housing so as to protrude in a direction orthogonal to the third surface in the vicinity of the second surface and is inserted into a through hole provided in the printed circuit board; Equipped,
The third terminal protrudes from the third surface, retracts from the first stopper, has a second stopper wider than the diameter of the through hole, and a second terminal having a width substantially equal to the diameter of the through hole. The toggle switch according to claim 1, further comprising a retaining portion, wherein a length from the second stopper to the tip is set longer than a thickness of the printed board.

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