CN102947642A

CN102947642A - Solar charged light bulb

Info

Publication number: CN102947642A
Application number: CN2011800142971A
Authority: CN
Inventors: S·卡撒诺斯
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-01-28
Filing date: 2011-01-27
Publication date: 2013-02-27
Also published as: EP2529150A2; AP2012006441A0; WO2011094444A2; AU2011210839A1; AU2011210839A2; WO2011094444A3; WO2011094444A9; EP2529150A4

Abstract

Disclosed herein are various versions of a solar-powered light bulb for repeatedly illuminating a dark location with a light emitting device powered by an electrical storage device that is repeatedly charged by at least one solar collector positioned on the solar-powered light bulb.

Description

The solar charging bulb

Prioity claim

It is the priority date of the part theme stated in 61/337, No. 005 U.S. Provisional Patent Application on January 28th, 2010 that the application required in the applying date.The applying date is that the mode that 61/337, No. 005 U.S. Provisional Patent Application on January 28th, 2010 is quoted in full clearly is incorporated into this.

Background technology

In the past, the limited location of light source is in the position with available electrical connection.The example of these traditional location comprises office, family, school, Public Man trade etc.All these examples all are positioned at the place that has available easily electrical connection and be connected to a larger electrical network.People often are in the electrical connection with intermittently operated or the position that does not have electrical connection.Other the countless position that comprises simple and unadorned residence, camping tent, outdoor garden and spread all over the world without the example of electric position.Past has developed lantern and has thrown light on these without electric position.The example of lantern comprises battery powered flashlight, battery powered Lamp for public place of entertainment, such as candle with burn the flammable torch etc. of the hand lamp of gasoline.

Summary of the invention

In one embodiment, the solar energy bulb comprises: outer cover, and the openend that this outer cover has base end and is oppositely arranged, openend is greater than base end and form open shell, and wherein, openend forms circular contour; Be connected to the lens of outer cover in open end, wherein outer cover and lens form an inner and outside; By outer cover or lens supports and be arranged at light-emitting device in this inside; By outer cover or lens supports and be arranged at electrical storage device in this inside, this electrical storage device and light-emitting device electrical interface; In this outside, be connected to the outer cover base and with at least one solar collector of electrical storage device electrical interface; Charging circuit, thus itself and light-emitting device, electrical storage device and at least one solar collector electrical interface control energy are transferred to light-emitting device via electrical storage device from least one solar collector; And wherein, electronics can move to accumulating system from least one solar collector, and finally passes to light-emitting device, thereby illuminates the dark position that does not have based on the electrical connection of electrical network.

In another embodiment, a kind of method of upgrading the solar energy bulb, it comprises: the solar energy bulb is provided, this bulb comprises: outer cover, the openend that this outer cover has base end and is oppositely arranged, this openend is greater than base end and form open shell, and wherein this openend forms a circular contour; Be formed at the screw thread in the housing opening end; Be connected to the lens of outer cover in open end; Be formed at the screw thread in the lens, lens screw thread and the rotatable engagement of outer cover screw thread; Wherein outer cover and lens form inside and outside; By outer cover or lens supports and be arranged at light-emitting device in this inside; Be arranged on removedly the electrical storage device in this inside, this electrical storage device and light-emitting device electrical interface; Be formed at the access door in the outer cover inside, this access door is adjacent to electrical storage device, so that can easily remove this electrical storage device with respect to the solar energy bulb; In this outside, be connected to the outer cover base and with at least one solar collector of electrical storage device electrical interface; Charging circuit, itself and light-emitting device, electrical storage device and at least one solar collector electrical interface, thus the control energy is transferred to light-emitting device via electrical storage device from least one solar collector; And wherein, electronics can move to accumulating system from least one solar collector, and finally passes to light-emitting device, thereby illuminates the dark position that does not have based on the electrical connection of electrical network; And, with respect to the outer cover relay lens, thereby from the outer cover screw thread, discharge the lens screw thread; The release channel door, thus from outer cover inside, discharge electrical storage device; From the solar energy bulb, remove electrical storage device; The electrical storage device of replacement is provided; The electrical storage device of this replacement is inserted outer cover inside; Seal this access door to fix the electrical storage device of this replacement; Be adjacent to the outer cover screw thread this lens screw thread is set; With respect to the outer cover relay lens so that lens are engaged to outer cover; And wherein, insert the electrical storage device of replacing, thereby upgrade the solar energy bulb.

Description of drawings

Fig. 1 is for passing through the removedly isometric view of an embodiment of the solar charging bulb of support of hook;

Fig. 2 is the front view of bulb among Fig. 1.

Fig. 3 is the side view of bulb among Fig. 1.

Fig. 4 is the bottom plan view of bulb among Fig. 1.

Fig. 5 is the exploded isometric view of bulb among Fig. 1, and this exploded isometric view shows the example of the Electronic Packaging that is included in bulb inside.

Fig. 6 is the exploded isometric view of Electronic Packaging among Fig. 5, comprises light-emitting device, electrical storage device and charging circuit.

Fig. 7 is the isometric view of an optional embodiment of solar charging bulb.

Fig. 8 is the isometric view of another optional embodiment of solar charging bulb.

The specific embodiment

By providing the bulb with outer cover base and outer cover lens to solve the problem that repeatedly illuminates dark position, described outer cover base and outer cover lens form the shape of similar conventional bulb.Outer cover base and outer cover lens have an outside and inside, and this inside comprises have light-emitting device Electronic Packaging, electrical storage device (for example battery), at least one solar collector and the charging circuit of (for example, incandescent lamp, fluorescent lamp or LED).Described solar collector is arranged on the described outer cover base.Described charging circuit and light-emitting device, electrical storage device and solar collector electrical interface.Wherein solar collector can absorb photon and export electronics to charging circuit, thereby charges to electrical storage device.

With reference to Fig. 1, it shows the isometric view by an embodiment who links up with the 200 solar charging bulbs 100 that support removedly.Bulb 100 comprises outer cover 102 and lens 104, but this outer cover 102 and lens 104 generally have the shape of conventional bulb.Solar collector 106 is arranged on the outer cover 102, and this solar collector 106 is used for receiving photon and powers to the element of bulb 100 inside.When bulb 100 supported by hook 200, solar collector 106 was arranged at the position of directly facing light source, and described light source is for example sun 107.In this configuration, lens 104 are arranged between ground 108 and the outer cover 102.

With reference to Fig. 2, it shows the front view of bulb among Fig. 1, the openend 112 that outer bulb envelope 102 has base end 110 and is oppositely arranged, and openend 112 is greater than base end 110 and form open shell 114.Lens 104 are connected to outer cover at openend 112 places, so that outer cover 102 and lens 104 form inner 116 and one outside 118.Bulb 100 can further comprise by outer cover 102 or lens 104 and supports and be arranged at electronic assemblies 120 in inner 116.Electronic assemblies 120 comprises light-emitting device 122 and the electrical storage device 124 of also powering for light-emitting device 122 with light-emitting device 122 electrical interfaces.Solar collector 106 externally 118 be connected to outer cover 102 and with electrical storage device 124 electrical interfaces.Bulb 100 further is provided with charging circuit 126, and this charging circuit 126 and light-emitting device 122, electrical storage device 124 and solar collector 126 electrical interfaces are transferred to light-emitting device 122 thereby regulate and control energy by solar collector 106.The photon that this connection can make solar collector 106 collect converts electronics to, and these electronics are stored in the accumulating system 124 and finally pass to light-emitting device 122, thereby illuminate the dark position that does not have based on the electrical connection of electrical network.

With reference to Fig. 3, it shows the side view of bulb among Fig. 1, and electronic assemblies 120 can further comprise switch 128 and photodetector 130.Switch 128 and photodetector 130 can with electronic assemblies 120(Fig. 2) electrical interface, thereby control illumination according to (surveying such as photodetector 130) environmental condition or (by switch 128 control) manual operation.But switch 128 and photodetector 130 can be arranged on the outer cover 102, it is characterized by switch 128 and photodetector 130 and stretch in outside 118 usually have the assembly that is arranged in inner 116 (Fig. 2).Such as among Fig. 3 the best illustrate, lens 104 can have hemisphere surface 132.This lens hemisphere surface 132 generally has the shape of conventional bulb, thereby is easy to identification and indicates this bulb 100 to be used for illuminating dark area.Outer cover 102 also can comprise the screw thread 134 that is formed in the base end 110.For the user, described screw thread 134 is another indications that bulb 100 is used for illuminating dark space.When electrical network is unavailable maybe can not provide electric energy for traditional light bulb base the time, screw thread 134 also can be used in the light bulb base (not shown) that bulb 100 accesses are traditional.In other are used, can not need to use light bulb base, and provide suspension hook 136 bulb 100 is suspended on the object, for example the suspension bracket shown in Fig. 1 200.The object similar to suspension bracket 200 includes but not limited to be installed in the screw thread suspension hook in ceiling or room, rope, branch or other suitable object of suspended span certain distance.In one embodiment, suspension hook 136 can be formed on the end of base end 110 and comprise frangible feature 138, this frangible feature 138 so that the user can be for good and all on the base end 110 separate hook 136.If the user wishes to use traditional bulb fixing device, then must be from the permanent bulb suspension hook 136 that separates on the base end 110.

With reference to figure 4, it shows the bottom plan view of bulb 100 among Fig. 1.Solar collector 106 can comprise a plurality of solar collectors.As shown in Figure 4, solar collector 106 can comprise 6 independent solar collectors 140,142,144,146,148,150, and they are equally spaced around outer cover 102.The quantity that one skilled in the art will appreciate that independent solar collector can change according to demand, for example, can use 2,3 or 12 independent solar collectors.

Fig. 5 shows the exploded isometric view of bulb 100 among Fig. 1, and this exploded isometric view provides the example of the electronic assemblies 120 in the inside 116 that is included in bulb 100.This figure has illustrated assembling process, and in this assembling process, outer cover 102 holds electronic assemblies 120.Electronic assemblies 120 scioptics 104 are fixing to form the semipermeability barrier, and this semipermeability barrier protection electronic assemblies 120 is not subjected to the impact of dust, moisture and other environmental pollution.A kind of configuration that improves this semipermeability barrier is to form circular contour 152 in openend 112.Circular contour 152 is consistent with the embodiment that bulb 100 has the conventional bulb shape.

With reference to figure 6, it shows the exploded isometric view of Electronic Packaging 120, and light-emitting device 122 can comprise a plurality of traditional light-emitting devices, such as the independent light emitting diode (LED) 154,156,158 that supports by support 160 etc.This support 160 can comprise battery tray 162, is used for holding electrical storage device 124, for example rechargeable battery of aa size.Support 160 also can hold charging circuit 126.Not shown, but can use the various electronic building bricks of a plurality of connections, electronic building brick is needed any other electronic installation of for example electrical storage device 124, charging circuit 126, light-emitting device 122, switch 128, photodetector 130 and customized configuration.

Described the example of bulb 100, the overview of using bulb 100 is provided now.With reference to figure 1, bulb 100 is placed on a position, and in this position, for example the light source of the sun 107 can be incident upon light on the solar collector 106.The light that solar collector 106 receives is converted into electric energy and is stored in the electrical storage device 124.After charge volume is enough, bulb 100 is moved to dark position, for example do not have the room of window in the residence, and begin to illuminate the room.In illuminating the process in room, the energy that is stored in the electrical storage device 124 is transferred to light-emitting device 122.This process can be carried out repeatedly according to user's request.

In an optional embodiment, light-emitting device 122 comprises 5 light emitting diodes.In this embodiment or other optional embodiment, solar collector 106 comprises 4 solar panels.

In another optional embodiment shown in Figure 7, suspension hook 136(Fig. 3) may be configured with pivot swivel 170, this pivot swivel 170 has first end 172 and the second end 174.The end 172,174 of this pivot swivel has the independent axes of two conllinear.In this optional embodiment, outer cover 102 has pair of holes 176,178, is used for the end 172,174 that holds support ring.This configuration allows pivot swivel 170 to rotate around pair of holes 176,178 with respect to outer cover 102.In the process of transportation and storage bulb 100, this configuration also allows to reduce volume.In this optional embodiment, clip 180 is provided, via this clip 180 bulb 100 is connected to a structure (for example linking up with 200).

In another optional embodiment shown in Figure 8, bulb 100 can have an access door 190.This access door 190 is adjacent to electrical storage device 124.This access door 190 can be with respect to support 160 rotations.

Claims

1. solar energy bulb, it comprises:

Outer cover, the openend that described outer cover has base end and is oppositely arranged, described openend is greater than base end and form open shell, and wherein said openend forms circular contour;

Lens, described lens are connected to described outer cover in described open end;

Wherein said outer cover and described lens form an inner and outside;

Light-emitting device, described light-emitting device is by described outer cover or by described lens supports and be arranged in the described inside;

Electrical storage device, described electrical storage device is by described outer cover or by described lens supports and be arranged in the described inside described electrical storage device and described light-emitting device electrical interface;

At least one solar collector, described solar collector are connected to described outer cover base in described outside, and with described electrical storage device electrical interface;

Charging circuit, described charging circuit and described light-emitting device, described electrical storage device and described at least one solar collector electrical interface, thus the control energy is transferred to described light-emitting device via described electrical storage device from described at least one solar collector; And,

Wherein, electronics can move to described accumulating system from described at least one solar collector, and finally passes to described light-emitting device, thereby illuminates the dark position that does not have based on the electrical connection of electrical network.

2. solar energy bulb as claimed in claim 1, it further comprises:

Be formed at the screw thread in the described outer cover base end; And,

Wherein said screw thread can mesh with the standard lamp socket, thereby described bulb is connected to a surface.

3. solar energy bulb as claimed in claim 2, it further comprises:

Be formed at the suspension hook on the terminal of described outer cover base end; And,

Wherein said suspension hook can with stationary object engagement, thereby on required direction projection light.

4. solar energy bulb as claimed in claim 1, it further comprises:

Be formed at the cone in the described outer cover, described cone starts from described openend and shrinks towards described base end.

5. solar energy bulb as claimed in claim 1, it further comprises:

At least one second solar collector, it is connected to described outer cover base in described outside, and with described electrical storage device electrical interface; And

Wherein said solar collector equally spaced is arranged on the described outer cover base each other.

6. solar energy bulb as claimed in claim 1, it further comprises:

Be formed at the hemisphere face in the described lens.

7. solar energy bulb as claimed in claim 1, wherein said light-emitting device comprises at least one light emitting diode.

8. solar energy bulb as claimed in claim 1, it further comprises:

Be formed at the screw thread in the described housing opening end; And

Be formed at the screw thread in the described lens, lens screw thread and the rotatable engagement of outer cover screw thread.

9. solar energy bulb as claimed in claim 1, it further comprises:

Be formed at the access door in the outer cover inside, described access door is adjacent to described electrical storage device, so that can easily remove described electrical storage device with respect to described solar energy bulb.

10. method of upgrading the solar energy bulb, it comprises:

Described solar energy bulb is provided, and described solar energy bulb comprises:

Outer cover, the openend that described outer cover has base end and is oppositely arranged, openend is greater than base end and form open shell, and wherein said openend forms circular contour;

Screw thread, it is formed in the housing opening end;

Lens, it is connected to described outer cover in described open end;

Screw thread, it is formed in the described lens, described lens screw thread and the rotatable engagement of outer cover screw thread;

Wherein said outer cover and described lens form an inner and outside;

Light-emitting device, it is by described outer cover or by described lens supports and be arranged in the described inside;

Electrical storage device, it is arranged in the described inside removedly, described electrical storage device and described light-emitting device electrical interface;

Access door, it is formed in the outer cover inside, and described access door is adjacent to described electrical storage device, so that can easily remove described electrical storage device with respect to described solar energy bulb;

At least one solar collector, it is connected to described outer cover base in described outside, and with described electrical storage device electrical interface;

Charging circuit, itself and described light-emitting device, described electrical storage device and described at least one solar collector electrical interface, thus the control energy is transferred to described light-emitting device via described electrical storage device from described at least one solar collector; And

Wherein electronics can move to described accumulating system from described at least one solar collector, and finally passes to described light-emitting device, thereby illuminates the dark position that does not have based on the electrical connection of electrical network; And,

Rotate described lens with respect to described outer cover, thereby from described outer cover screw thread, discharge described lens screw thread;

Discharge described access door, thereby from the described electrical storage device of the inner release of described outer cover;

From described solar energy bulb, remove described electrical storage device;

The electrical storage device of replacement is provided;

The electrical storage device of described replacement is inserted described outer cover inside;

Seal described access door with the electrical storage device of fixing described replacement;

Contiguous described outer cover screw thread arranges described lens screw thread;

Rotate described lens with respect to described outer cover, so that described lens are engaged to described outer cover; And

Wherein, thus the electrical storage device that inserts described replacement upgrades described solar energy bulb.