JPS59220027A - Solar battery type charger - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a solar battery charger that charges a rechargeable battery by generating power from a solar battery using sunlight as energy.

Structure of the conventional example and its problems As shown in FIG. 11, this conventional solar battery charger is composed of a solar cell section 41 containing a solar cell and a battery pack 42 containing a rechargeable battery. When charging the rechargeable battery, the battery pack 42 is attached to the solar cell section 41 to perform charging.

In this case, even if the user does not have a charger, the solar cells installed in the solar cell section 41 are set so that they face the sunlight side.
In the conventional solar battery charger, a stand 43 that can be raised and lowered is provided on the battery pack 42, and the rechargeable battery is charged by raising the stand 43. However, the stand 43 in the conventional charger
The stand 43 is simply provided so that it can be raised and lowered freely.
The problem was that the angle could not be adjusted.

Purpose of the Invention In view of the above-mentioned conventional problems, the present invention provides a solar cell type in which a solar cell part containing a solar cell can be tilted to match the position of the sun, and the tilted state is also stable. The purpose is to provide a charger.

[Structure of the Invention] - In order to achieve the above object, the present invention forms two grooved guide walls for slidingly inserting the battery case part on the back surface of the main body case constituting the solar cell part. A shaft support member is formed with a gap on the outside of the guide wall, and the stand is rotatably supported between the shaft support members, and a plurality of convex portions are formed on the inside of the side wall of the shaft support member. are arranged in a line so that the rotation angle of the stand can be adjusted. According to this configuration, by raising the stand and changing the engagement position with the plurality of convex parts of the stand as appropriate, The solar cell section containing solar cells can be tilted to match the position of the sun, and as a result, sunlight can be received efficiently, improving charging efficiency. Since the stand is provided on the solar cell side, the battery case can be made cleaner compared to the conventional stand provided on the battery pack side, and as a result, the battery case can be made smaller and lighter. It can be measured.

DESCRIPTION OF EMBODIMENTS An embodiment of the present invention will be described below based on the male side drawings. Fig. 1 is a cross-sectional view of a solar cell battery charger according to an embodiment of the present invention, Fig. 2 is a bottom view of the solar cell part in the charger, and Fig. 3 is a back view of the solar cell part. ,
FIG. 4 is a rear side view of the battery case section of the charger, FIG. 5 is a plan view of the charging input terminal section and output terminal section in the battery case section, and FIG. 6 is a side view of the charging input terminal section. Fig. 7 is a perspective view of the charging input terminal section and output terminal section, and Fig. 8 is a charging circuit diagram.
is a solar cell part, and this solar cell part 1 is connected to a main body case 2,
A transparent body 3 such as Shi/Z attached to this main body case 2,
A plurality of solar cells 4 arranged below this transparent body 3,
It is comprised of a pair of terminal parts 7 and 8 connected to this solar cell 4 via lead wires 6.6. And the pair of terminal portions 7°81S1. As shown in FIG. 3, the cutters are made to protrude outward from the back side of the main body case 2, and are provided with elastic force so that they always protrude outward. 9 is a battery case part, and this battery case part 9 forms a battery storage chamber 11 and an input/output terminal chamber 12 in the main body case 10, and is provided with a cover body 13 that covers the input/output terminal chamber 12. A battery cover 14 covering the chamber 11 is detachably attached to the main body case 10. 15 is a battery lead fixed to one side wall of the battery storage chamber 11, 16 is a board provided in the input/output terminal room 12, and a charging input terminal section 1, 18 is fixed to this board 16, and this charging input The terminal portions 17 and 18 have one end facing the other side wall of the battery storage chamber 11, and the other end facing the fourth side wall.
As shown in the figure, it is made to protrude outward from the main body case 10. In this case, the other end of one of the charging input terminals 17 and 18 is internally connected to the main body case 10.
The other end 18' of the other charging input terminal portion 18 is connected to the rectifier 19 as shown in FIGS. 5 to 7.
It is made to protrude outward from the main body case 10 via. As shown in FIGS. 5 to 7, the board 16 is still provided with an output terminal section 2Q that connects directly to the outside from the charging input terminal section 17.18, and this output terminal section 20 is connected to the outside as shown in FIG. "Not shown": Opening 21 provided on the side of the main body case 1o
I'm making it happen.

The back side 2 of the main body case 2 constituting the solar cell section 1
2 has two grooved guide walls 23.2 as shown in FIG.
3' and a convex portion 24 located between the grooved guide walls 23 and 23'. On the other hand, as shown in FIG. 4, grooves 25 and 25' are provided on both sides of the main body case 10 of the battery case section 9 for slidably fitting between the grooved guide walls 23 and 23'. At the same time, four portions 26 are formed on the bottom surface to fit with the convex portions 24. 2
Reference numeral 7 denotes a screw for fixing the substrate 16 and the lid 13 to the main body case 1Q. Reference numeral 28 in FIGS. 1 and 8 is a rechargeable battery housed within the battery case portion 9.

As shown in FIGS. 2 and 3, on the back side of the main body case 2 constituting the solar cell section 1, there are two grooved guide walls 23 and 23 into which the battery case section 9 is slidably inserted.
outside of the shaft support member 30 with a gap of 29.29'
, 30', respectively, and this shaft support #30, 3
The end of 0' is connected to the grooved guide wall 23, 23' by means of a connecting part 31, 31'. Reference numeral 32 denotes a stand configured in a U-shape, and both ends of the stand 320 are rotatably supported in a hole 33 formed at an angle of 3° in the shaft support member so.
In addition, a notch 34.34' is provided in the grooved guide wall 23.23' facing the hole 33. A plurality of protrusions 36 are arranged in a row in the side wall 40+1 of the shaft support member 30, 30', and these protrusions 35 regulate the rotation angle when the stand 32 is raised. It is something to do. That is, when charging the rechargeable battery 28 with the solar cell 4, as shown in FIG. 9, by raising the stand 32, the solar cloth/i! Hold the charger so that 24 faces the sunlight 4III,
In this case, as shown in FIG. 10, by appropriately changing the engagement position between the stand 32 and the plurality of convex parts 35, the stand 32 can be adjusted so that the solar cell part 1 matches the Taiko position.
The rotation angle of the stand 32 can be adjusted, and the stand 32 can be reliably held in the same position.

When the stand 32 is not in use, the stand 32 is in the 1 position shown in FIG.
There are exactly two gaps between the grooved guide wall 23 and 23'.

29', so that it may easily fall off (this is not possible).With the battery case part 9 inserted and held by the slide in the solar cell part 1, the stand 32 is If you put it down like this (even if the battery case part 9 falls off when you carry this solar battery charger, it can be stopped by the I/F connection part 32' of the U-shaped stand 32). Therefore, it is also possible to prevent the battery case part 1 from falling off.

Next, the operation during charging in the above configuration will be explained.

During charging, the battery case part 9 houses the rechargeable battery 28.
The grooved guide wall 23 is attached to the main body case 2 of the solar cell section 1.
．． Insert the slide using grooves 23' and 25.25'. By inserting this slide, the convex part 24 of the solar cell part 11 rule
and the four parts 26 on the battery case part 9 side are engaged and fixed, and at the same time, the charging input terminal parts 1γ, 18 of the battery case part 9
contacts the pair of terminal parts 7 and 8 of the solar cell part 1 and is electrically connected. In this state, when sunlight is applied to the solar cell unit 1, the solar cell 4 generates electricity, and the rechargeable battery 28 is charged via the rectifier 19. At this time, when a plug (not shown) of an external device (not shown) is inserted and connected to the output terminal section 20 of the battery case section 9, the rechargeable battery 28
It can supply power to external devices while charging the device.

Moreover, after charging, the battery case part 9 is connected to the solar cell part 1.
If it is removed, it can be used as a battery pack, and the rechargeable battery 28 inside the battery case part 9 can be taken out by opening the battery cover 14, so the rechargeable battery 28 can be attached to other external devices. It can also be used as a

Effects of the Invention As described above, according to the present invention, two grooved guide walls into which the battery case part is slidably inserted are formed on the back surface of the main body case constituting the solar cell part, and the outer side of the grooved guide walls is formed. A shaft support member is formed with a gap between the two shaft support members, and a stand is rotatably supported between these shaft support members, and a plurality of convex portions are arranged in a row on the inside of the side wall of the shaft support member. The rotation angle of the stand can be adjusted by raising the stand and changing the position of the stand with the multiple convex parts as appropriate to match the position of the sun with solar cells inside. Because it can be tilted like
It is possible to efficiently receive sunlight, and as a result, charging efficiency can be improved. Since the stand is still provided on the solar cell side, the battery case can be made cleaner compared to the conventional battery pack (l'!11) with a stand provided, and as a result, the battery case This allows the parts to be made smaller and lighter.

[Brief explanation of the drawing]

1st page 71 A sectional view of a solar battery charger showing an embodiment of the present invention, Figure 2 is a bottom view of the solar battery part of the charger, Figure 3 is a rear perspective view of the solar battery part, Figure 4 is the rear view of the battery case of the same charger (main view), Figure 6 is a plan view of the charging input terminal and output terminal in the battery case, Figure 6 is the 11th side of the charging input terminal. Fig. 7 is a perspective view of the charging input terminal section and output terminal section, Fig. 8 is a charging circuit diagram, Fig. 9 is a side view showing the usage state of the charger, and Fig. 1Q shows the main parts of the charger. III sectional view and FIG. 11 are perspective views showing the state in which the battery pack in a conventional solar battery charger is removed from the solar cell section. 1... Solar cell section, 4... Solar cell, 7 , 8 pair of terminals, 9 - battery case part, 1, 1B charging input terminal part, 23.23'... two grooved guide walls,
28--・Rechargeable battery, 29.29'・Gap, 30,
3c;・Axle support material, 32・Stand, 35・Multiple convex parts. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 2 Figure 3 Figure 4 Figure 5 f8 Figure 6 f8' Figure 8 Lee] Figure 9 Figure 10 Figure 11

Claims (1)

[Claims] A solar cell part that houses a solar cell and is provided with a pair of terminal parts connected to the solar cell, and a solar cell part that is detachably attached to the solar cell part and that houses a rechargeable battery and that is used when charging the rechargeable battery. and a battery case part provided with a charging knife terminal part that comes into contact with the pair of terminal parts, and a two-striped grooved guide wall into which the battery case part is slidably inserted is formed on the back surface of the main body case constituting the solar cell part. At the same time, a shaft support member is formed with a gap on the outside of the grooved guide wall, and the stand is rotatably supported between these shaft support members, and the @11 wall of the shaft support member is There are multiple protrusions arranged in a row on the inside to adjust the rotation angle of the stand (l
A solar powered charger.