JPH08230463A - Sun visor of car - Google Patents

Abstract

PURPOSE: To feed current simply and stably by furnishing a vanity mirror lighting system, solar cell, and storage battery, and connecting and disconnecting the circuit interlockingly with opening and closing of a lid. CONSTITUTION: A storage battery 125, solar cell 124, and lighting system 122 are connected together by three circuits. The first circuit feeds the electricity generated by the solar cell 124 to the lighting system 122 while the second circuit feeds the electricity stored in the storage battery 125 to the lighting system 122, and the third circuit sends the electricity generated by the solar cell 124 to the storage battery 125. A common switch 140 is furnished for the first circuit and second circuit, and the circuits are connected and disconnected interlockingly by opening and shutting of a lid 123 which encloses a vanity mirror 121. Therefore, the first circuit is placed in priority when solar irradiation in the daytime suffices in case the lid is left open, and at night, the second circuit has priority. Because the first and second circuits are broken in case the lid is shut, the third circuit is in effect. This eliminates wirings from external power supply, and accordingly no maintenance is needed therefor.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an antiglare sun visor mounted near the driver's seat of an automobile.

[0002]

2. Description of the Related Art Conventionally, a sun visor has been provided near the driver's seat of an automobile mainly for the purpose of preventing glare. In this type of sun visor, a structure including a vanity mirror, an illumination device for the vanity mirror, and a lid that covers the vanity mirror and the illumination device has been generalized. In this configuration, when the vanity mirror is used, the lighting device is turned on when the lid is opened, and the illumination device is turned off when the lid is closed. Electricity is often supplied to the lighting device from the outside of the sun visor through a shaft that attaches the sun visor body to the vehicle body. A part of the shaft made of metal or resin is made hollow, and wiring is passed inside, so that the lighting device inside the visor and the wiring from the external power source are connected. By the way, there are the following problems with wiring in such a mounting shaft for a vehicle body. This type of shaft is often L-shaped, and the process of making the inside hollow is complicated, and the number of steps and costs are high. In particular, this type of shaft is designed to be able to rotate due to the operation of changing the position of the sun visor, so it is necessary to take measures to prevent kinking etc. due to the wiring that passes through it, and also secure the strength of the shaft. Must be done, making it more difficult to process. In order to solve such a problem, a practical application 59-149 in which the battery case is built in the substrate of the sun visor is adopted.
No. 849 is proposed. With this configuration, the wiring inside the shaft is eliminated and the above-mentioned problem is solved, but maintenance of the power supply is essential because of the configuration.

[0003]

DISCLOSURE OF THE INVENTION The present invention further advances the above-mentioned sun visor having a built-in battery to provide a structure in which maintenance of the battery is unnecessary.

[0004]

[Means for Solving the Problems] A means of the present invention for solving the problems is an automobile sun visor mounted near the driver's seat of an automobile for the purpose of preventing glare from direct sunlight, wherein a vanity mirror and a vanity mirror are provided in a visor body. Lighting device, a lid that covers the vanity mirror and the lighting device so as to be openable and closable, a solar cell, a storage battery that stores the electricity generated by the solar cell, and a circuit that connects the solar battery, the storage battery, and the lighting device. The circuit is composed of a first circuit that sends the power generated by the solar cell to the lighting device, a second circuit that sends the power stored in the storage battery to the lighting device, and a third circuit that sends the power generated by the solar cell to the storage battery. There is a common switch in the first circuit and the second circuit, and this switch connects / disconnects the circuit in conjunction with the opening / closing operation of the lid body. According.

[0005]

In the sun visor of the present invention, a first circuit is provided which includes a vanity mirror illuminating device, a solar cell, and a storage battery, and which sends electricity generated by the solar cell to the illuminating device.
The second circuit that sends the electricity stored in the storage battery to the lighting device and the third circuit that sends the electricity generated by the solar cell to the storage battery are connected, and a common switch is provided for the first circuit and the second circuit. Because it has a configuration that connects / disconnects the circuit in conjunction with the opening / closing of the lid that covers the vanity mirror (lighting device),
When the lid is opened and the daytime solar radiation is sufficient,
The power of the solar cell is preferentially supplied to the lighting device by the circuit of No. 2, and the electricity stored in the storage battery is preferentially supplied to the lighting device when the power of the solar battery is not generated at night. . Further, when the lid is closed, the first circuit and the second circuit are cut off, so that the power generation of the solar cell is stored in the storage battery by the third circuit. The above circuit switching is
In order for a user of the sun visor (vanity mirror) to use the vanity mirror, it is rational that the circuit is automatically switched by a switch interlocking with the opening / closing operation of the lid.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described below with reference to the drawings. 1 and 2 are external views of an automobile sun visor 110 of the present invention. (FIG. 1: Front view, FIG. 2: Rear view) The main body 111 of the sun visor is the stay 11.
The stay is attached to the vehicle so as to be rotatable around the bracket by a bracket 113 fitted in the bracket 2. It is also supported by the engaging knob 114 as an auxiliary. A vanity mirror 121, a vanity mirror illuminating device 122, and a lid 123 for opening and closing the vanity mirror 121 are attached to the surface 111a facing the user at the position where the sun visor is used for shielding light. On the other hand, a solar cell 124 is embedded in the back surface 111b of this sun visor. 3 and 4 are cross-sectional views taken along line XX and YY in FIG. 1, respectively, showing a more detailed structure of the sun visor of the embodiment. A known structure can be used for the visor body 111, and a wire frame 115 that forms the outer shape, a hard core plate 116, a pad material 117 such as urethane foam that sandwiches the core plate, and a knit that covers the outer periphery of the pad material. And the like. Openings 119 and 119 'are formed in the front and back surfaces of the sun visor body, and resin-molded casings 120 and 120' are embedded therein. A vanity mirror 121 and a lighting device 122 are arranged in the casing 120.
A solar cell 124 is arranged at 0 '. A storage battery 125 is embedded in the pad material, and wiring is connected to the lighting device and the solar cell.
It is connected by 6, 146 '. The solar cell 124 is composed of a module in which a plurality of cells each having an antireflection film / n-type silicon / p-type silicon laminated between electrodes are integrated, and the power generation of one module (size 33 mm, 24 mm square) is 1.
It is 8V-16mmA. The number of modules (array) that can be installed in the sun visor is 10 to 20. The storage battery 125 is of nickel-cadmium type, and
It can be used with a capacity of 0 mA to 20 A and can withstand overcharge and overdischarge. The casing 120 is composed of a part 120a for housing the vanity mirror and a part 120b for housing the lighting device. FIG. 4 shows the illumination device 122 and the switch structure 140 of the example sun visor. Lighting device housing portion 12 of casing 120
The lamp 130 (capacity 1.2V-1.8W) is held by a conductive holder 131 formed by bending a metal at 0b, and the surface of the housing portion is covered with a translucent resin lamp cover 133. When the switch structure 140 is provided near the illumination device accommodating portion 120b of the casing and the lid 123 is opened, the tip of the switch 143 projects to the surface of the casing 120. This is a switch biased and supported by a spring. Further describing the details of the switch structure with reference to FIG. 5, reference numeral 141 denotes a cylindrical resin holder that receives the switch,
On the upper surface of the holder is an extended end 132 of the lamp holder 131.
It extends and covers the upper surface. On the other hand, the electrode plate 142 connected from the storage battery is arranged below the receiving tool. A switch rod 143 made of resin is inserted through the extended end 132 of the holder and the electrode plate 142, and the conductive plate 14 is attached to the switch rod.
4 is fixed and is biased toward the upper surface of the receiver by a conductive spring 145. Now the lid 12
Assuming that the switch rod 143 is open, the switch rod 143 is biased by the spring 145 so that the tip of the switch rod 143 projects from the surface of the casing. The conductive plate 144 fixed to the switch rod contacts the holder extension end 132. In this state, power is supplied from the solar cell or the storage battery through the electrode plate 142, the spring 145, the conductive plate 144, the holder extension end 132, and the holder 131 to the lamp 13.
0 is supplied and the lamp lights up. Next, when the lid 123 is closed, the tip of the switch rod 143 protruding from the casing surface is pushed into the casing by the weight of the lid (the spring 145 contracts) and the conductive plate 144 is pressed.
And the holder extension end 132 are separated from each other, the power supply from the power source to the lamp is cut off, and the lamp 130 is turned off. FIG. 6 shows an equivalent circuit of the present invention. Solar cell 124 and storage battery 125
And the lighting device 122 are connected by a circuit in parallel (via a backflow prevention diode 126). The first circuit (current flow) is a circuit that connects the solar cell and the lighting device, the second circuit is a circuit that connects the storage battery and the lighting device, and the third circuit is a circuit that connects the solar cell and the storage battery. is there. A common switch 140 for the first circuit and the second circuit
Therefore, when the switch is turned off (the lid is closed), the lighting device is not supplied with power, and when power is generated by the solar cell, this is stored in the storage battery. On the other hand, when the switch is connected (the lid is open), when the solar cell has sufficient power generation, the solar cell supplies power, and when the solar cell has insufficient power generation, the storage battery supplies power to the lighting device. FIG. 7 shows an embodiment in which the sun visor of the present invention is attached to the vehicle 100. It shows how the direct light S _D from the sun S is scattered and applied to the sun visor 110 in the vehicle as scattered light S _r .

The sun visor of the present invention is used for accumulating a solar battery power generator in a storage battery, and is used for nighttime illumination by charging it while the daytime illumination device is not required. Therefore, the wiring from the power source is unnecessary, the configuration of the sun visor can be simplified, and the productivity is improved and the cost is reduced. No power supply maintenance required.

[Brief description of drawings]

[Figure 1] External view (front)

[Figure 2] External view (back side)

FIG. 3 is a sectional view (XX)

FIG. 4 is a sectional view (YY)

FIG. 5: Switch structure

FIG. 6 shows a circuit concept

FIG. 7 shows a usage mode

[Explanation of symbols]

 100 ... Automobile 110 ... Automobile sun visor 111 ... Visor main body 115 ... Wire frame 116 ... Core plate 117 ... Pad material 118 ... Coating material 120, 120 ′ ... Casing 121 ... Vanity mirror 122 ... Lighting device 123 ... Lid 124 ... Solar cell 125 ... Storage battery 130 ... Lamp 131 ... Conductive holder 132 ... Extension end 140. ..Switch structure 141 ... Receptor 142 ... Electrode plate 143 ... Switch rod 144 ... Conductive plate 145 ... Spring 146, 146 '... Wiring 150 ... Circuit

Claims (1)

[Claims] 1. A sun visor for an automobile, which is installed near a driver's seat of an automobile to prevent glare from direct sunlight,
A vanity mirror on the visor body, a lighting device for the vanity mirror, a lid that can open and close the vanity mirror and the lighting device, a solar battery, a storage battery that stores electricity generated by the solar battery, the solar battery, a storage battery, and a lighting device. And a second circuit for transmitting the electricity generated by the solar cell to the lighting device, the second circuit for transmitting the electricity stored in the storage battery to the lighting device, and the electricity generation by the solar cell for the storage battery. A third circuit for sending to the first circuit and a second circuit.
There is a common switch in the circuit of, and this switch connects and disconnects the circuit in conjunction with the opening and closing operation of the lid body, the sun visor for automobiles.