JPH0246613A - Switch device - Google Patents

Abstract

PURPOSE:To make it possible to reduce the sorts of component parts, to improve the productivity, and to obtain low cost materials as a whole, by projecting the cutting end from a base selectively when a connecting part is cut off, and forming it as an auxiliary terminal to connect an auxiliary load. CONSTITUTION:A connecting conductor is processed in a press-bending to a specific form, and after that, a base 23 is formed by using an insulating material by an insertion formation, After this insertion process is over, the connecting conductor is cut off by a press-cutting process, and made in a form where only an auxiliary terminal 35a is projected to the side of the base 23. By projecting the cutting end from the base 23 selectively when the connecting part is out off, an auxiliary terminal 35a to connect an auxiliary load is to be formed. As a result, even though the feeding route of the power supply to the auxiliary load is different, it is not necessary to design and manufacture responding to them respectively. Consequently, as well as the sorts of the component parts can be reduced, the productivity can be improved, and low cost materials can be obtained as a whole.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Field of Industrial Application) The present invention relates to a switching device having an auxiliary terminal for connecting an auxiliary load.

(Prior Art) For example, a switch device used in an automobile window regulator is composed of two sets: a main switch device installed on the driver's seat side and a sub-switch device installed on the door side. Generally, when these switch devices are operated, the motor for raising and lowering the land is energized and rotates forward or backward, raising or lowering the window. Additionally, these switch devices include
A light emitting diode is installed to illuminate the operating knob, and when the car is in use, power is supplied and the light is turned on at all times.

Therefore, this type of conventional switch device generally has a plurality of power supply side and load side terminals insert-molded into the base, and also includes an auxiliary terminal for supplying power to the light emitting diode. It is also insert molded. In the main switch device, the power-side terminal is connected to the power source, and the load-side terminal is connected to the power-side terminal of the sub-switch device, and the motor, which is the main load, is connected to the load-side terminal of the sub-switch device. It is connected.

(Problem to be Solved by the Invention) According to the conventional configuration, the power supply side terminal of the main switch device is connected to the power supply, but the power supply side terminal of the sub switch device is connected to the load side terminal of the main switch device. Therefore, the form of power supply to the light emitting diode, which is the auxiliary load, is also different.
Therefore, the formation states of the auxiliary terminals led out from the base are inevitably different between the main switch device and the sub switch device. For this reason, it is necessary to design and manufacture the base of each switch device separately, and therefore there are problems in that the components are diverse and complicated, and the device becomes expensive overall.

The present invention has been made in view of the above circumstances, and its purpose is to enable selective configuration of auxiliary terminals using a board with the same specifications even when the power supply paths to the auxiliary loads are different. The company's goal is to provide switching equipment that has been developed.

[Structure of the Invention] (Means for Solving the Problems) The switch device of the present invention includes insert molding a plurality of power supply side and load side terminals connected to each other by a connecting portion on a base, and then cutting the connecting portion. In this structure, when the connecting portion is cut, the cut end thereof is selectively protruded from the base to form an auxiliary terminal for connecting an auxiliary load.

(Function) According to the switch device of the present invention, even if the power supply route to the auxiliary load is different and the configuration of the auxiliary terminal for that purpose is different, the connection part of the base board with the same specifications by insert molding can be selectively protruded from the base board. The auxiliary terminal can be formed by cutting the terminal in the same way as the terminal, eliminating the need for separate design.

(Example) Hereinafter, an example in which the present invention is applied to a switch device for a window regulator of an automobile will be described with reference to the drawings.

The window regulator Sui-Sochi device of this example is as follows:
It consists of two sets: a sub switch device 21 for operation on the window side and a main switch device 22 for operation on the driver's seat side.

First, the overall configuration of the sub-switch device 21 will be described based on FIGS. 1 to 13. A base 23 is a substantially rectangular base made of an insulating material, and a case 24, which is a base made of an insulating material and having a rectangular container shape with an open bottom, is fitted onto the upper end of the base 23. In this base 23, elongated recesses 25a and 25b are formed alternately in the upper surface thereof, and fixed contact conductors 26a and 26b and movable contact conductors 27 are formed as described below.
a and 27b are integrally arranged (see FIG. 9).

That is, in FIG. 12, 28 is a conductor plate integrally formed by press punching of a plate material, and this is because the conductors 26a and 27b and between 26b and 27a each serve as a connecting part at the side part. The connecting conductors 29 and 30 connect the conductors 26a and 26b, and the connecting conductor 31 connects the conductors 26a and 26b. The conductor plate 28 includes a power supply side terminal 32a and a load side terminal 3 protruding outward from the conductors 26a, 27a and 27b.
3a and 33b are bent downward, and conductors 27a and 27
The supporting portion conductors 34a and 34b protruding inward from b are bent upward, and the connecting conductors 29 and 30 are bent into a concave shape and pressed into a predetermined shape as shown in FIG. 13 when viewed from the top. The base 23 is bent and then integrally molded using an insulating material by so-called insert molding. After this insert molding,
The connecting conductors 29 and 30 are cut by a press cutting process, so that only the auxiliary terminal 35a of the fixed contact conductor 26a protrudes to the side of the base 23, as shown in FIG. 9. 36a and 36b are the recessed portions 25;
Fixed contact conductors 26a and 26 exposed at a and 25b
It is a cylindrical normally open side fixed contact part shown in each of the parts shown in FIG. Next, in the case 24, 37a and 37b
is a rectangular cylindrical portion that protrudes upward at a position facing each of the support portion conductors 34a and 34b of the movable contact conductors 27a and 27b (see FIGS. 1 and 4).
Reference numerals 38a and 38b are operating elements that are inserted into these cylindrical parts 37a and 37b so as to be able to move up and down, and their upper parts are positioned so as to protrude above the case 24. 3
Reference numerals 9a and 39b are knob supports that stand up from the center of the side of the upper end of the case 24 (see FIG. 7). Note that a knob (not shown) is rotatably supported on the knob support parts 39a, 39b, and the operation element 38a is rotated by rotating the knob.
Alternatively, 38b is pressed down. 8th
In the figure, 40a and 40b are the fixed contact conductors 2
These are fixed contact conductors provided at respective positions facing 6a and 26b, and these are integrally disposed in the case 24 by insert molding in the same manner as described above.

That is, in FIG. 10, 41 is a conductor plate integrally formed by press punching of a plate material, and this is because the conductors 40a and 40b have claw portions 40aa and 40 on both sides, respectively.
connected to power supply side terminals 42a and 42b, auxiliary conductors 43a and 43b, and locking claws 44a and 44b, and between conductors 40a and 43b and between conductors 40b and 43a.
The space between them is connected at the side portions by connecting conductors 45 and 46, which are connecting portions.

The conductor plate 41 is then bent downward with the power supply terminals 42a and 42b and the locking claws 44a and 44b into a predetermined shape as shown in FIG. 11, and then insulated. The case 24 is formed by insert molding the material. After insert molding, the connecting conductors 45 and 46 are cut by a press cutting process, and the auxiliary terminals 47a and 48b of the fixed contact conductor 40a and the auxiliary conductor 43b are shaped to protrude to the side of the case 24. As a result, the case 24 When viewed from below, it looks like Figure 8. 49a and 49b
are cylindrical normally closed fixed contact portions fixed to the center portions of the fixed contact conductors 40a and 40b, respectively. When the case 24 is fitted to the upper end of the base 23, the power supply side terminals 42a and 42b are
Recesses 23aa and 23ba formed on the side of the base 23
Claw portions 42aa, 4 formed on both sides of each
2ba is bent along the lower surface of the base 23, and similarly, the locking claws 44a and 44b abut on the recesses 23ab and 23bb formed on the side of the base 23, and the respective lower ends are bent along the lower surface of the base 23. Folded, case 2
4 and a base 23 are combined.

Now, 50a is a movable contact plate, in which first and second movable members 51 and 52 made of leaf springs are vertically matched and connected at their free ends 5B (53a, 53a), and their free ends 5B (53a, 53a) are connected. It has a configuration in which a cylindrical movable contact portion 54 is fixed at the end, and the first movable member 51
A curved portion 55 having an upwardly convex shape is formed in the middle portion of the
A downwardly convex curved portion 56 is formed in the middle portion of the second movable member 52 . In this case, the movable contact portion 50a
For example, as shown in FIG. 3, a single conductor plate 5 has first and second movable members 51 and 52 arranged side by side and connected at free ends 53a and 53a by a connecting part 57a.
After forming the curved portions 55 and 56 as described above on the press punched portion 7, they are bent and overlapped at the connecting portion 57a. In the first movable member 51, a rectangular hole-shaped base end fulcrum portion 59 formed on the base end portion 58 side is connected to the movable contact conductor 2.
A notch-shaped second base formed on the base end 61 side of the second movable member 52 is inserted into and engaged with the first support portion 60a formed on the right end side of the support portion conductor 34a of 7a. A second support portion 62 is located on the left end side of the support/holding portion conductor 34a and is located slightly below the first support portion 60a.
is engaged with the support portion 63a of the movable contact plate 5.
゜a is supported and held by the support portion conductor 34a. In this state, the movable contact plate 50a is subjected to a displacement force that directs the free end portion 53 upward and to the left due to the spring action of the curved portion 56 of the second movable member 52, and this upward component forces the movable contact portion 54. is in contact with the normally closed fixed contact portion 49a with contact pressure. Further, the base end portion 58 of the first movable member 51 is brought into contact with the operator 38a.

and a movable contact plate 5°a having a movable contact portion 54;
A changeover switch section 64a is constituted by the fixed contact sections 36a and 49a on the normally open side and the normally closed side. In addition, a movable contact plate 50b formed in exactly the same manner as the changeover switch part 64a has the same parts as the changeover switch part 64a, and the same parts as the changeover switch part 64a are shown by adding a suffix instead of the suffix a to the reference numeral.
b. That is, the movable contact plate 50b is supported and held by the supporting part conductor 34b of the movable contact conductor 27b, and the movable contact part 54b is supported by the fixed contact part 49 on the normally closed side opposite to the supporting part conductor 34b.
b, and the changeover switch section 64b is constituted by the movable contact plate 50b having the movable contact section 54 and the fixed contact sections 36b and 49b on the normally open side and the normally closed side. It is something.

The sub-switch device 21 configured in this way includes:
As shown in FIG. 1, a printed wiring board 66 is attached to the side surface from which the auxiliary terminals 35a, 47a, and 48b are projected, on which a light emitting diode LED 5, which will be described later, is provided as an auxiliary load.

Next, the configuration of the main switch device 22 will be described with reference to FIGS. 14 to 20.

In this case, the main switch device 22 has two changeover switch sections 6 in substantially the same manner as the sub-switch device 21 described above.
4c and 64d, the changeover switch section 64 corresponds to the changeover switch sections 64a and 64b.
The parts c and 64d are indicated by the same numbers with suffixes c and d, and the other parts are the same. ] Indicated with a number,
The following points will be explained. Base case 24'
Fixed contact conductor 26 incorporated by insert molding into
As shown in FIG. 19, c and 26d are formed by a conductor plate 67 which is press-punched from a plate material, and in addition to the conductor plate 41 of the sub-switch device 21, each conductor plate 26c and 26d are auxiliary conductor parts 43c,
The locking claw part 44d, the auxiliary conductor part 43d, and the locking claw part 44
They are connected by connecting conductors 68 and 69 via a gap between the two. This conductor plate 67 is similar to the conductor plate 44
In the same manner as shown in FIG. 11, after the press is bent and insert molded, only the auxiliary terminal 47c of the fixed contact conductor 40c protrudes to the side.
The connecting conductors 45 and 46, which are the connecting portions, are cut by a press cutting process to form the case 24-, which has a shape as shown in FIG. 18 when viewed from the bottom. The main switch device 22 thus constructed is attached with a printed wiring board 71 on which a light emitting diode 70 as an auxiliary load, which will be described later, is disposed on the side surface from which the auxiliary terminals 35c and 47c are projected.

Next, the electrical configuration will be described with reference to FIG. Reference numerals 72 and 73 indicate positive and negative DC power terminals connected to a battery (not shown), and are connected to the power supply side terminals 32c and 42d of the main switch device 22, respectively. In this main switch device 22, the power supply side terminal 32c is connected to the normally open side fixed contact portions 36c and 36.
d and is also connected to the auxiliary terminal 35c, and the power supply side terminals 42, C and 42d are commonly connected by the connecting conductor 68, 69, and the normally closed side fixed contact portions 49c, 49d and the auxiliary terminal. 4
7d, and the load side terminals 33c and 3
3d are connected to movable contact plates 50C and 50d, respectively. A series circuit of the light emitting diode 70 and a resistor 74 arranged on the printed wiring board 71 is connected between the auxiliary terminals 35c and 47d. Load side terminals 33C and 3 of this main switch device 22
3d are the power supply side terminals 4 of the sub switch device 21, respectively.
2a and 42b, and the sub-switch device 2
The power supply side terminal 32 a of No. 1 is connected to a positive DC power supply terminal 72 . In this sub-switch device 21,
The power supply side terminal 32a is connected to the normally open side fixed contact parts 36a and 36b and is also connected to the auxiliary terminal 35a, and the power supply side terminal 42a is connected to the normally closed side fixed contact part 49a and the auxiliary terminal 47a.
The power supply side terminal 42b is connected to a normally closed fixed contact section 49b and an auxiliary terminal 47b, and the load side terminals 33a and 33b are connected to movable contact plates 50a and 5, respectively.
Connected to 0b. The light emitting diode 65 and the resistor 75 disposed on the printed wiring board 66
One end of the series circuit is connected to auxiliary terminal 35a, and the other end is connected to auxiliary terminals 47a and 48b via diodes 76 and 77, respectively. 78
is a DC motor for driving a window, both terminals of which are connected to the load side terminals 33a and 33b of the sub-switch device 21, respectively, and rotate in the forward direction when a positive DC power supply voltage is applied to the load side terminal 33a. When a positive DC power supply voltage is applied to the load side terminal 33b, the window rotates in the opposite direction to raise and lower the window.

Next, the operation of this embodiment will be described.

First, in FIG. 1 showing a cross section of the changeover switch section 64a side of the sub-switch device 21, the movable contact plate 50a is moved upwardly to the left at its free end 53 by the spring force exerted by the curved section 56 of the second movable member 52. A displacement force of 1 is applied, and the upward force causes the movable contact portion 54 to be in contact with the normally closed fixed contact portion 49a. In this state, when a knob (not shown) disposed on the upper part of the sub-switch device 21 is rotated and the operator 38a is pressed downward, the first movable member 51 of the movable contact plate 50a is rotated. The proximal end portion 58 is deformed to be curved and displaced downward. After this, the curved portion 5 of the first movable member 51
5 covers the second support portion 63a.
When the line connecting the protruding bases at both ends of the second movable member 52 is located below the base end fulcrum part 62 of the second movable member 52,
The movable contact plate 50a is given a downward left displacement force to its free end 53 by the spring force of the curved part 56 of the second movable member 52, and the downward component force causes the free end 53 to be displaced downwardly. moves rapidly downward, and the movable contact part 54 performs a snap action in which it separates from the normally closed fixed contact part 49a and contacts the normally open fixed contact part 36a, as shown in FIG. The situation will be like this. Further, when the pressing force on the operator 38a by the knob is removed, the first movable member 51 of the movable contact plate 50a is restored by its spring force, and the line connecting the protruding bases at both ends of the curved portion 55 is Second
When the movable member 52 is located above the proximal fulcrum portion 62 of the second movable member 52, the spring force of the curved portion 56 of the second movable member 52 applies an upward displacement force to the left on the free end portion 53. , and due to the upward force, the free end 53
rapidly moves upward, and the movable four contact portion 54 is separated from the normally open side fixed contact portion 36a, and the movable four contact portion 54 is separated from the normally closed side fixed contact portion 49.
Now performs a snap action that contacts a,
The state returns to the state shown in FIG. Then, the other changeover switch section 64b and the changeover switch section 6 of the main switch device 22
4c and 64d also perform similar operations.

Now, when the changeover switch sections 64a to 64d return, they are electrically in the state shown in FIG. 21. In this state, the light emitting diode 70 of the main switch device 22 connects to the positive DC power supply terminal 72. Load side terminal 32C1 Auxiliary terminal 35c1 Light emitting diode 70.
Resistance 74. Auxiliary terminal 47d, power supply terminal 4
2d and the negative DC power terminal 73, and the light emitting diode 65 of the sub-switch device 21 is connected to the positive DC power terminal 72. Sub switch device 2
1 power supply side terminal 32a, auxiliary terminal 35a1
Light emitting diode 65. Resistor 75, diode 77, auxiliary terminal 48b, power supply side terminal 42b, load side terminal 33d of main switch device 22, and movable contact plate 50d.

Normally closed side fixed contact part 49d, fs source side terminal 42d
It is energized through the path of the negative DC power supply terminal 73 and is turned on. Note that the cathode of this light emitting diode 65 is connected to a resistor 75. Diode 76, auxiliary terminal 47a of sub-switch device 21, power-side terminal 42a, load-side terminal 33C1 of main switch device 22, movable contact plate 5
0C1 Normally closed side fixed contact part 49C1 Power supply side terminal 4
2d to the negative DC power supply terminal 73 at the same time.

Now, when the movable contact plate 50a is brought into contact with the normally open fixed contact part 36a in the changeover switch part 64a of the sub-switch device 21, the DC motor 78 is switched to the positive DC power supply terminal 7.
2. power supply side terminal 32a of the sub-switch device 21;
Fixed contact portion 36a on the normally open side, movable contact plate 50a, load side terminal 33a, DC motor 78. The load side terminal 33b of the sub-switch device 21, the movable contact plate 50b, the normally closed side fixed contact part 49b, and the m source side terminal 42b.

Electricity is applied through the path of the load side terminal 33d of the main switch device 22, the movable contact plate 50d, the normally closed side fixed contact portion 49d, the power source side terminal 42d, and the negative DC power terminal 73, and the motor rotates in the forward direction.

Therefore, by operating the changeover switch portion 64a, a window (not shown) is raised, for example. Incidentally, even when the changeover switch section 64a is switched in this manner, the light emitting diodes 65 and 70 continue to light up as described above.

Next, the knob of the sub-switch device 21 is rotated in the opposite direction to that described above, and the movable contact plate 5 of the changeover switch section 64b is rotated.
0b comes into contact with the normally open fixed contact portion 36b, the DC motor 78 connects the positive DC power terminal 72. The power supply side terminal 32a of the sub-switch device 21, the normally open side fixed contact part 36b, the movable contact plate 50b, and the load side terminal 33b.

DC motor 78. Load side terminal 33a of sub-switch device 21, movable contact plate 50a, normally closed side fixed contact part 4
9a, power supply side terminal 42a, main switch device 2
2 load side terminal 33c.

Fixed contact portion 49c on the normally closed side of movable contact plate 50C1.

Electricity is applied in the opposite direction to that described above through the path between the power supply side terminal 42d and the negative DC power supply terminal 73, and the motor rotates in the opposite direction. Therefore, by operating the changeover switch portion 64b, a window (not shown) is lowered, for example. Incidentally, even when the changeover switch section 64b is switched in this manner, the light emitting diodes 65 and 70 continue to light up as described above.

Now, next, a case where the main switch device 22 is operated will be described.

First, a knob (not shown) provided at the top of the main switch device 22 is rotated to switch the changeover switch section 64c.
When the movable contact plate 50c comes into contact with the normally open fixed contact portion 36c, the DC motor 78 connects to the positive DC power terminal 72. Power supply side terminal 3 of main switch device 22
2C1 normally open side fixed contact part 36C1 movable contact plate 50c,
Load side terminal 33c, negative R of sub switch device 21
side terminal 42a, normally closed side fixed contact portion 49a.

Movable contact plate 50a, load side terminal 33a, DC motor 78. Load side terminal 33 of sub-switch device 21
b, movable contact [50b, normally closed side fixed contact part 49b,
A power supply side terminal 42b and a load side terminal 33d of the main switch device 22.

Movable contact plate 50d, normally closed side fixed contact part 49d.

Electricity is applied through the path of the power supply side terminal 42d and the negative DC power supply terminal 73, and the motor rotates in the forward direction, thereby raising the window. Note that even if the changeover switch section 64c is switched in this way, the cathode of the light emitting diode 65 is connected to the resistor 75. Auxiliary terminal 48b of diode 77° sub-switch device 21.

Power supply side terminal 42b, load side terminal 33d of main switch device 22, and movable contact plate 50d.

Normally closed side fixed contact part 49d and power supply side terminal 42d
Since it is connected to the negative DC power supply terminal 73 via
The light emitting diode 65 is lit.

Next, when the movable contact plate 50d of the changeover switch section 64d comes into contact with the normally open side fixed contact section 36d by rotating the knob of the main switch device 22, the DC motor 7
8 is a positive DC power supply terminal 72 and a main switch device 22
power supply side terminal 32c, normally open side fixed contact part 36d
, the movable contact plate 50d, the load side terminal 33d, the power supply side terminal 42b of the sub-switch device 21, the four normally closed fixed contact parts, the movable contact plate 50b, the load side terminal 33b, the DC motor 78. Load side terminal 33a of sub switch device 21, movable contact plate 50a, normally closed side fixed contact part 49a, power side terminal 42a, load side terminal 33C1 of main switch device 22 movable contact plate 50
C1 normally closed side fixed contact part 49c, IX source side terminal 4
2d and the negative DC power supply terminal 73, the windshield rotates in the opposite direction, and the window is lowered. still,
Even if the changeover switch section 64d is switched in this way, the cathode of the light emitting diode 65 is connected to the resistor 75. diode 7
6. Negative power via the auxiliary terminal 47a of the sub-switch device 21, the power-side terminal 42a, the load-side terminal 33c of the main switch device 22, the fixed contact portion 49c on the closing side of the iiT dynamic contact plate 50c, and the power-side terminal 42d. Since the light emitting diode 65 is connected to the DC power supply terminal 73 of the light emitting diode 65, the light emitting diode 65 is lit.

According to this embodiment, the following effects can be obtained.

That is, the fixed contact conductors 26a, 26b (26c) are connected to the power supply side terminal 32a (32c).

26d), load side terminals 33a, 33b (33c
, 33d) are connected to the movable contact conductors 27a, 27b.
(27c, 27d) are connected to the conductor 29°30 (29,
This is insert molded into the base 23 (23) as a conductive plate 28 (28) connected by a power supply side terminal 42a.

The fixed contact conductors 40a, 40b (40c, 40d) connected to
．． 46 (45, 46) connected conductor plate 41 (6
7), this is insert molded into the case 24 (24), and these base 23 (23) and case 24 (24) are assembled.
4') connecting conductor 29°30 (29,30) and 4
5.46 (45, 46) are cut to selectively protrude, and in the sub-switch device 21, the auxiliary terminal 35a.

47a, 48b, and auxiliary terminals 35c, 47d are formed in the main switch device 22, unlike the conventional case, different power supply paths to the light emitting diodes 65, 70 of each switch device 21, 22 can be connected. It is no longer necessary to separately design and manufacture the components, which makes it possible to reduce the number of component parts and improve productivity, resulting in a product that is generally inexpensive.

In the above embodiment, the auxiliary terminals 35a, 47a, 48b of the sub-switch device 21 and the auxiliary terminals 35c, 47d of the main switch device 22 are provided protruding from the left side, but the present invention is not limited to this. The case 24, 24' may be cut after insert molding so as to protrude from the right side.

Further, although the above embodiment is a case in which the present invention is applied to a switch device for a window regulator of an automobile, the present invention is not limited to this, but can be applied to any switch device in which auxiliary terminals are arranged in different routes.

[Effects of the Invention] Since the switch device of the present invention is as explained above,
It has the following effects.

That is, a plurality of power supply side and load side terminals are connected by a connecting part and insert-molded on the base, and then, when the connecting part is cut, the cut ends are selectively protruded from the base to connect the auxiliary load. Since an auxiliary terminal is formed to connect the auxiliary load to the auxiliary load, unlike conventional methods, there is no need to separately design and manufacture the power supply routes to the auxiliary load. The number of types can be reduced, productivity can be improved, and products can be produced at lower prices overall.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention, and FIGS. 1 and 2 are longitudinal sectional front views showing before and after operation, FIG. 3 is a developed view of the movable contact plate, and FIG. 4 is a sub switch. Top view of the device, Figure 5 is a bottom view, Figure 6 is a front view, Figure 7 is a side view, Figure 8 is a bottom view of the case, Figure 9 is a top view of the base, Figure 1O. 11 is a developed view of the conductor plate of the same case and a top view after processing, FIGS. 12 and 13 are views corresponding to FIGS. 10 and 11 of the same base, and FIGS. 14 to 1
Figure 8 is a diagram corresponding to Figures 4 to 8 of the main switch device;
19 and 20 are views corresponding to FIGS. 10 and 11 of the main switch device, and FIG. 21 is an electrical configuration diagram. In the drawing, 21 is a sub-switch device (switch device), 2
2 is the main switch device (switch device), 23 is the base (base board), 24.24' is the case (base board), 26
a to 26d are fixed contact conductors, 27a to 27d are movable contact conductors, 29 and 3.0 are connection conductors (connection parts),
32a and 32c are power supply side terminals, 33a to 33d
are load side terminals, 35a and 35c are auxiliary terminals, 36a to 36d are normally open side fixed contact parts, 40a to 40d are fixed contact conductors, 42a to 42d are power supply side terminals, 45.46 are connection conductors (connection parts ), 47a,
47d and 48d are auxiliary terminals, 49a to 49d are fixed contact parts on the normally closed side, 50a to 50d are movable contact plates,
65.70 is a light emitting diode (auxiliary load), 64a to 64d are changeover switch sections, and 68.69 is a connection conductor. Applicant: Tokai Rika Denki Seisakusho Co., Ltd.

Claims (1)

[Claims] 1. In a device in which a plurality of power supply side and load side terminals are connected by a connecting part and insert-molded on the base, and then the connecting part is cut, the cut end is attached to the base when the connecting part is cut. A switch device characterized in that it is formed as an auxiliary terminal for connecting an auxiliary load by protruding more selectively.