SE505737C2 - Dimmer-passing switch device for motor vehicle - Google Patents

Abstract

The device includes a switch main body (1) which is fitted on the upper end area of a straight tube. This main body comprises an upper housing part (2) and a lower housing part (3) fitted at the lower part of the upper housing part. A rocker holder component (4) is accommodated within the switch main body. The rocker holder component is arranged to be pivoted around shaft parts (5) which are arranged inside the switch main body in the upper and lower areas at the left end. An operation rocker (6), which functions as a rocker for a pivot signal switch and as a rocker for a dimmer switch is fitted at an inner part of the rocker holder component (4) so as to pivot around a shaft (7). A receiving lowered part (8) is arranged at the operation rocker (6) right-hand end part. A pressure spiral spring (9) and a ball for automatic return (10) is accommodated within the receiving lowered part (8).

Description

505 757 2 the position between the two switches of the swing board type two switches are switched, the lighting state alternates between low beam and high beam.

However, in the conventional construction described above, the second swing board type switch having many parts is used, and it is necessary to provide a switch mechanism for switching the on / off position between the two contacts of the second swing board type switch when the operating element is moved to the second the situation. Disadvantages arise, among other things, because the construction of the entire switch device becomes complicated, the number of parts increases and the manufacturing cost increases.

SUMMARY OF THE INVENTION An object of the invention is to provide a dimming / override switch device in which the entire construction of the switch device is simplified and the number of parts is reduced so that the manufacturing cost of the switch device is reduced.

Such a switch device is realized if it is characterized by: a first switch which is switched on when the operating element moves to a first position; a second switch which is switched on when the operating element passes the first position and moves to a second position: and light control means for switching on a lighting for overtaking when the light control means receives an on-signal from the first switch and for switching alternately between a state for dipped beam and a state for main beam each time the dimmer receives an on signal from the other switch.

In the construction described above, there is only the first switch, which is switched on when the operating element moves to the first position, and the second switch, which is switched on when the operating element moves BNSDOC! D: ^ so5 737 3 itself to the second position. Therefore, a rocker board type switch and a switch mechanism for adjusting and operating the rocker board type switch are unnecessary.

The entire construction of the switch device is simplified and the number of parts is reduced. In this case, it is necessary to provide a light control means which illuminates a bypass light and which alternates between a low light state and a high light state each time the light control means receives an on signal from the other switch. However, the light control means can be easily realized by some of the functions of a microprocessor, which is already installed in a car (ie the microprocessor which takes care of several controls, such as light control and the like). The number of parts is therefore not increased.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an electrical circuit diagram illustrating an embodiment of the invention.

Fig. 2 is a longitudinal sectional side view of a switch device.

Fig. 3 is a side view illustrating the operation of a first switch.

Fig. 4 is a side view illustrating the operation of a second switch.

Fig. 5 is a top view of the switch device.

DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of the invention applied to a rocker combination switch device for a car will be described in the following with reference to the drawings. In Fig. 2, which illustrates the whole structure of the toggle combination switch device, there is a switch main body 1 mounted at an upper BNSDOCID: 505 737 4 end region of a steering tube (not shown). The switch main body 1 consists of an upper housing part 2 and a lower housing part 3 which is mounted at the lower part of the upper housing part 2. A rocker holder element 4 is accommodated inside the switch main body 1. The rocker holder element 4 is arranged to be pivotable about shaft parts 5, 5. which are arranged inside the switch main body 1 at upper and lower areas in the left end of Fig. 2. An operating rocker 6, which functions as a rocker for a turn signal switch and as a rocker for a dimming switch, is mounted at an inner part of the rocker holder element 4 to be able to pivot about an axis 7. A receiving recessed part 8 is arranged at the right end part of the rocker rocker 6. A compression coil spring 9 and an automatic return ball 10 are received inside the receiving recessed portion 8.

An automatic return wall part 11 is arranged at an area inside the rocker holder element 4 which is located opposite the right end part of the operating rocker 6. An automatic return surface 11a, which is constituted by a ledge-shaped and inclined surface, is arranged at a surface of the automatic return wall part 11 which is located opposite the right end part of the operating rocker 6. The ball for the automatic return 10 is pressed by the compression coil spring 9 to be displaced in contact with the automatic return surface 11a. In this case, the position shown in solid line in Fig. 2 is the return position. The operating flip-flop 6 can be pivoted from the return position to the right as shown by the dotted lines A, B in Fig. 2. When the pivoting operation of the operating flip-flop 6 is stopped (when an operator removes his hand from the operating flip-flop 6), the operating flip-flop 6 automatically returns to the return position.

A driver element 12 is mounted at the right end portion of the operating rocker 6. When the operating rocker 6 is pivoted to the right, the driver element 12 moves downwards in accordance with the pivoting of the operating rocker 6. An operating element 13 is arranged at the lower housing part 3 at an area below the driver element 12 in order to be able to move back and forth in vertical directions. The operating element 13 is pressed upwards by a compression spring 14 and its upper end part abuts against the bottom surface of the driver element 12.

A first operating part 15 and a second operating part 16 project from the right and left side surface part, respectively, in Fig. 2 of the upper end of the operating element 13. As shown in Figs. 3 and 4, a first switch 17 and a second switch 18 are arranged in the vicinity of the first operating part 15 and the second operating part 16, respectively. As shown in Fig. 3, the first switch 17 consists of a leaf spring 20 and fixed contact 22. The leaf spring 20 is a movable contact whose base end part is mounted at and supported by a holder part 19 at the lower housing part 3. The first contact 22 is mounted at a holder part 21 at the lower housing part 3. In this case the leaf spring 20 is pressed through its own spring force in a direction in which its top end portion contacts the fixed contact 22, and the intermediate portion of the leaf spring 20 is set on the upper surface of the first operating portion 15 of the operating member 13.

As can be seen from Fig. 4, the second switch 18 consists of a leaf spring 24 and a fixed contact 26. The leaf spring 24 is a movable contact whose base end part is mounted to and supported by a holder part 23 which is arranged at the lower housing part 3. The fixed contact 26 is mounted on a holder part 25 at the lower housing part 3. In this case the leaf spring 24 is pressed by its own spring force in a direction in which its top end part does not contact the fixed contact 26, and the middle part of the leaf spring 24 abuts the lower surface of the second operating part 13. 16.

When the operating element 13 is placed in an off position (return position) which is the position shown by the solid line in Fig. 2, as shown in Fig. 3, the first operating part 15 of the operating element 13 displaces the leaf spring 20 upwards, and the first switch 17 thereby shut down. When the operating element 13 moves downwards and the first operating part 15 is moved to a bypass position, which is BNSDOCID: 505 737 6 a first position shown by the dotted line C in Fig. 3, the top end part of the leaf spring 20 contacts the first contact 22, and the first switch 17 is turned on. Furthermore, when the operating element 13 moves downwards and the second operating part 16 is moved past the first position (overtaking position) shown by the dotted line D in Fig. 4 to a dimming position, which is a second position shown by the dotted line E, the leaf spring 24 contacts top end part the fixed contact 26, and the second switch 18 is switched on.

A connecting part 27 is arranged in one piece with a lower part of the lower housing part 3 on the right side in Fig. 2. Respective contacts of the first switch 17 and the second switch 18 as well as several end sockets 28, which are led out of respective contacts of a pivot signal switches, are arranged inside the connecting part 27.

As shown in Fig. 5, the operating rocker 6 can be operated and pivoted in one piece with rocker holder element 4 around a pivot center (shaft part 5). In this case, the operating rocker 6 is held by a moderating mechanism (not shown) at three positions: a neutral position shown by a solid line, a right-turn position shown by the dotted line F, and a left-turn position shown by the dotted line G.

When the operating rocker 6 is swung to the right-turn position, the right-hand switch (c-a) is switched on by a turn signal switch 29 (see Fig. 1). When the rocker switch 6 is turned to the left turn position, the left turn switch (c-b) is switched on by the turn signal switch 29.

Fig. 1, which illustrates an electrical structure, has a light control means, for example a microprocessor 30, a control function for controlling the ignition of the respective lamps, a control function for controlling the operation of a windshield wiper motor and the like.

Control programs for these control functions are stored in the microprocessor 30. The microprocessor 30 receives respective switch signals from the first switch 17, the second switch 18 and the turn signal switch 29, and receives several different switch signals from an ignition switch 31, a door switch 32 and a windshield wiper switch 33.

The microprocessor 30 further controls the supply of electric power and interrupts the supply of electric power to a high beam headlamp 35 and a low beam headlamp 36 which are connected in parallel between the output end sockets of a direct current battery 34 via a relay 37 and a relay 38, respectively.

The microprocessor 30 controls a pivot signal lamp 39, a small lamp 40, a lamp 41 and a windshield wiper motor 42 via respective drive circuits 43-46. although specific electrical circuits are not shown in the drawings for the ignition switch 31, the door switch 32, the windshield wiper switch 33 and for the turn signal lamp 39, the small lamp 40, lamp 41, the windshield wiper motor 42 and the drive circuits 43-46, a block diagram is shown. The microprocessor 30 receives several different switch signals from switches, such as an operating switch for an air conditioning device for a vehicle cab, an ignition switch and the like, for operating various control devices, such as the air conditioning device for a vehicle cab and the like.

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

When the operating rocker 6 is pivoted from the return position shown by the solid line in Fig. 2 to the overtaking position shown by the dotted line A in Fig. 2, the operating element 13 moves downwards and its first operating part 15 is moved to the overtaking position shown with the dotted line C in Fig. 3. Consequently, the first switch 17 is turned on and the on signal is sent to the microprocessor 30.

The microprocessor 30 receives the on signal from the first switch 17 and turns on the relay 38 to turn on the main-beam headlamp lamp 35. Switching on the overhead lighting is thus effected. In this case, the high beam spotlight 35 is lit while the switch 17 is on. When the oscillating operation of the operating rocker 6 is subsequently stopped (ie when an operator removes his hand from the operating rocker 6) BNSDOCID: 505 737 8 the operating rocker 6 automatically returns to the return position (off position) shown by the solid line in Fig. 2.

When the operation rocker 6 is pivoted past the overtaking position, which is shown by the dotted line A in Fig. 2, to the dimming position, which is shown by the dotted line B in Fig. 2, the operating element 13 is moved further downwards. Its second operating part 16 is moved to the dimming position shown by the dotted line E in Fig. 4. Consequently, the second switch 18 is turned on, and the on signal is sent to the microprocessor 30. When the microprocessor 30 receives the on signal from the second switch 18, it is determined. whether the currently set light illumination state of the memory integrated in the microprocessor 30 is a low beam or high beam state. If the low beam lighting is set, the setting is switched to high beam lighting. If the high beam lighting is set, the setting is switched to low beam lighting. Each set of microprocessors 30 receives an on signal from the second switch 18, the lighting setting alternates between the low beam and high beam lighting. In an initial state (when the ignition switch is on), the low beam lighting is set in the microprocessor 30.

When the microprocessor 30 receives a spotlight signal from the illumination switch 31 in a state where the low beam lighting is set, the relay 38 is turned on and the low beam spotlight 36 is turned on. When the microprocessor 30 receives a searchlight illumination signal from the illumination switch 31 in a state where the high beam lighting is set, the relay 37 is turned on and the high beam spotlight 35 is lit.

When the microprocessor 30 receives an on signal from the second switch 18 in a state in which the low beam ignition mode is set and a headlight ignition signal is received from the ignition switch 31, i.e. in a state in which the low beam beam lamp 30 is turned on, the lighting 30 is on. and closes relay 38 and turns on relay 37 so BNSDOCID: "sus 757 9 that the high beam spotlight 35 is lit.On the other hand, when the microprocessor 30 receives an on signal from the second switch 18 in a state in which the high beam ignition mode is set and a headlamp ignition signal is received from the ignition switch 31, i.e. in a state in which the high beam headlamp lamp 35 is lit, the microprocessor 30 closes the relay 37 and turns on the relay 38 so that the position illumination lamp 36 is lit.

In accordance with the embodiment described above, the first switch 17 is arranged, which is switched on when the operating element 13 moves to the overtaking position (the first position) and the second switch 18 which is switched on when the operating element 13 moves to the diverter position (the second mode). Therefore, in contrast to conventional structures, a seesaw type switch and a switch mechanism for adjusting the seesaw type switch are unnecessary.

The entire structure of the switch device can thereby be simplified and the number of parts can be reduced. Consequently, the manufacturing cost according to the invention is extremely low compared to the cost of conventional structures. In this case, the microprocessor 30, which switches on the lighting for overtaking and which alternately switches between the low-lighting ignition mode and the high-lighting ignition mode, each time an on-signal from the other switch is received, is necessary. However, the microprocessor 30 already installed in the car and used for the lighting control of the various lamps, the drive control of the windshield wiper motor 42 and the like, can be used as the microprocessor 30 (in particular, only some of the functions of the microprocessor 30 are used). Therefore, the number of parts does not increase and there is hardly any increase in the manufacturing cost.

In the embodiment described above, the full-beam headlamp lamp 35 is lit at the same time as the first switch 17 is switched on. Instead of this structure, however, it is possible to provide a structure in which the full-beam headlamp lamp 35 is lit only for a predetermined time BNSDOCID: <5E ____ 505737C2__ |,> 505 737 10 (eg 0.2 sec, 0.5 sec, 1 sec or similar) while the first switch 1? is on. In the above-described embodiment, the ignition control means is further structured by the microprocessor 30 for drive control of the respective lamps and various devices and the like. However, a specific control circuit, which is used exclusively for the ignition control means, may be provided.

BNSDOCID:

Claims (7)

1. 505 737 ll P A T E N T K R A V 1. A dimming / override switch device comprising: an operating element (13) arranged to be operable for reciprocating movement; a first switch (17) which turns on when the operating element (13) moves to a first position; a second switch (18) which is switched on when the operating element (13) passes the first position and moves to a second position; and control means (30) for switching on a lighting for bypassing when the control means receives an on-signal from the first switch (17) and for switching alternately between a state of lit dimming and a state of dipped beam each time the dimming means (30) receives an on signal from the other switch (18). 2. A dimming / override switch device according to claim 1, characterized in that the operating element (30) is biased towards an initial position. Dimming / override switch device according to claim 1 or 2, characterized in that the operating element (13) has a first protruding part (15), a contact in the first switch (17) being switched on by the first protruding part ( 15) when the operating element (13) moves to the first position. Dimming / override switch device according to one of Claims 1 to 3, characterized in that the operating element (13) has a second projecting part (16), a contact in the second switch (18) being switched on by the second projecting the part (16) when the operating element (13) moves to the second position. BNSDOUD: 505 737 12 5. A dimming / override switch device according to any one of claims 1-4, characterized in that the light control means (30) consists of a microprocessor. A dimming / override switch device according to any one of claims 1-5, characterized in that in a first state, the light control means (30) is set in a state of lit dipped beam. A dimming / override switch device according to any one of claims 1-6, characterized in that for a predetermined period of time the light control means (30) turns on the lighting for overtaking when the light control means (30) receives the on signal from the first switch (17). BNSDOCID: