FR2720579A3 - Solar battery charger for mobile telephones - Google Patents

Abstract

The battery charger has a shell (20) which fits inside a telephone (40) containing the batteries, the charger controller, and indicator lamps. The charger shell is covered by a fixed solar panel (10) which converts sunlight into electric power and can be connected in series with further panels (50) which fold up against the fixed panel and protected by a cover (30) held by fastening straps e.g. velcro tapes. The solar panels have recesses distributed over a top wall and corresponding raised portions on a bottom wall, both walls being covered with transparent waterproof film. When the battery power drops below a predetermined level, the charge controller detects this and routes electrical power to the batteries from the solar panels, using the same charging voltage to eliminate "battery memory effect". When the sunlight is not sufficiently intense, AC power can be used instead. The indicator lamps are for BATTERY/LOW/CHARGE.

Description

The present invention relates to a solar battery charger which is

  directly mounted on a mobile phone to detect the supply of batteries and then charge the batteries with electrical energy obtained from a solar collector panel

  when the battery power drops below a predetermined level.

  Various battery chargers are known and widely used for charging mobile phones. These battery chargers can use AC power or vehicle battery power to charge a cell phone with fast charging mode or standard charging mode. When each battery charger is used, back-up batteries should always be provided for the mobile phone so that the mobile phone can be kept in working order at all times. When the energy of the cellphone batteries is not exhausted, the batteries cannot be charged or else a "battery memory effect" would occur. When the "battery memory effect" occurs, the batteries may become unusable. During the charging process, if the standard charging mode is chosen, you will lose a lot of time (about an hour). When the fast charging mode is chosen, the charging time can be greatly reduced, however, the batteries can overheat which easily damages them. In addition, charging mobile phone batteries consumes

lot of energy.

  The present invention has been made to provide a solar battery charger for mobile phones which eliminates the aforementioned drawbacks. According to one aspect of the present invention, a housing is molded on a mobile phone to support a battery assembly and a battery charging controller, and a solar collector panel is directly attached to the housing to collect radiation energy from sunlight and then convert it to an electrical energy, in which the battery charging controller detects the energy level of the battery pack inside the housing and then charges the battery assembly with electrical energy obtained from from the solar collector panel when the energy level of all the batteries drops below

of a predetermined area.

  According to another aspect of the present invention, a cover is detachably attached to the housing of the solar battery charger on the mobile phone and covers

  the solar collector panel to protect it.

  According to yet another aspect of the present invention, an additional collapsible solar collector panel is received inside the cover and is electrically connected in series with the solar collector panel located on the housing of the solar battery charger to collect radiation energy. of sunlight and then convert it into energy

  electric to charge the batteries.

  In the drawings: - Figure I is an elevational view of a solar battery charger according to the present invention; - Figure 1- 1 is a sectional view taken along line B-B 'of Figure 1; - Figure 1-2 is a sectional view taken along line A-A 'of Figure 1; - Figure 1-3 is a partial view on an enlarged scale taken in Figure 1-2; - Figure 1-4 is an elevational view of an alternative form of the solar battery charger of the present invention; - Figure 2 is an elevational view of a solar collector panel according to the present invention; - Figure 2-1 is a partial sectional view taken in Figure 2; - Figure 2- 2 is a partial view on an enlarged scale taken in Figure 2; - Figure 3 shows a protable telephone incorporating a solar battery charger according to the present invention; Figure 3-1 is a partial view on an enlarged scale taken in Figure 3; - Figure 4 is a view similar to that of Figure 3 but shows the collapsible solar collector panel in the unfolded state; - Figure 4-1 is a partial view on an enlarged scale taken in Figure 4; - Figure 5 is an overall view in cross section of the portable telephone shown in Figure 3; - Figure 5-1 is a cross-sectional view taken along line A-A of Figure 5; - Figure 6 shows a variant shape of the cover for the mobile phone according to the present invention, and - Figure 6-1 is a view similar to that of Figure 6 but shows the

cover open.

  Referring to Figures I and 2, the housing of the battery charger referenced 20 is covered with a solar collector panel 10 for collecting the radiation energy from sunlight and allowing it to be converted into electrical energy for charging the battery. The solar collector panel 10 comprises a plurality of recesses 120 distributed on the top and covered with a layer of transparent water-resistant film 110, a plurality of protrusions 121 distributed on the bottom corresponding to the recesses and covered with a layer of transparent water-resistant film 111, two contacts 11 spaced apart on one side and extending out of the films 110-111. The recesses 120 define a respective concave surface 122 for efficiently collecting radiation energy from sunlight. When assembled, the contacts 11 are connected to the internal charge controller I inside the battery charger housing 20. The battery charger housing 20 includes an AC receptacle 21 and a plurality of indicator lights 3 respectively connected to the internal charging controller 1. When the supply of batteries 2 inside the housing of the battery charger 20 drops below a predetermined level, it is detected by the internal charging controller 1, and then l the radiation energy collected by the solar collector panel 10 is converted into electrical energy and sent through the internal charging controller 1 to charge the batteries 2. Since the internal charging controller uses the same voltage to charge the batteries 2 to as the battery power drops below the predetermined level, the problem of bat memory effect rie "is eliminated. The battery charger housing can be made in various ways. Figure I A shows a variant form of the battery case. When the radiation energy of the sunlight is not sufficient, the alternating current source can be connected to the alternating current receptacle 21 and controlled by the internal charging controller I to charge the batteries 2. The indicator lights 21 are used for the respective indications

BAITERIEIFAIBLE / LOAD.

  Referring to Figures 3, 4 and 5, the battery charger 20 is molded directly onto the mobile phone 40 on the back. An additional foldable solar collector panel 50 can be connected in series to the solar collector panel 10 on the battery charger 20. The mobile telephone 40 further comprises two fixing bands 41 (for example, Velcro bands) on its two opposite longitudinal sides to mount a cover 30. When the foldable solar collector panel 50 is folded and received tightly on the collector panel 10 on the battery charger 20, the cover

  is fixed to the fixing strips 41 to protect the solar collector panels 10-

  50. When the cover 30 is removed from the mobile phone 40, the foldable solar collector panel 50 is unfolded to collect the radiation energy of the sunlight

  effectively to charge the batteries 2 of the battery charger 20.

  Referring to Figure 6, an alternative form of the present invention is illustrated in which the cover, referenced 330, has one end attached to one side of the cell phone 40 and an opposite end detachably connected to an opposite side of the mobile phone 40 by fixing strips 41. The cover 330 has a solar collector panel on the outside and contacts 151 on the inside. The contacts 151 of the cover 330 are connected to respective contacts 150 on the portable telephone 40 when the cover 330 is closed on the portable telephone 40, and therefore, the radiation energy of the sunlight can be collected by the panel. solar collector located on cover 330 and converted into electrical energy

  to charge the batteries inside the mobile phone 40.

Claims (4)

Claims   1.- Battery charger (20) for a portable telephone (40), comprising: a housing molded on a portable telephone (40) to support a battery assembly (2); a solar collector unit (10, 50) for collecting radiation energy from sunlight and then converting it into electrical energy; a battery charging controller (1) for detecting the energy level of the battery assembly (2) inside said housing and for charging the battery assembly with electrical energy obtained from said solar collector unit when the energy level of the battery assembly drops below a predetermined range, and a cover (30) detachably attached to said mobile phone and covering said solar collector unit.   2. A battery charger according to claim 1, wherein said solar collector unit comprises a fixed solar collector panel (10) secured to said housing on the outside, said collector housing having a plurality of recesses (120) distributed over a wall. top thereof and covered with a layer of transparent water-resistant film (110), a plurality of projecting parts (121) distributed over a bottom wall thereof corresponding to said recesses covered with a layer of transparent film water resistant (111), and two contacts (II) spaced on one side and electrically   connected to said battery charging controller (1).   3. A solar collector unit according to claim 2, further comprising a foldable solar collector panel (50) received inside said cover (30) and connected.   electrically to said fixed solar collector panel (10) by contacts thereof.   4.- solar collector unit according to claim 2, further comprising a second   solar collector panel fixed to said cover on the outside.