CN106505711A - Luminous energy charger and the combination of the charging with the Luminous energy charger - Google Patents

Abstract

The invention discloses a kind of Luminous energy charger, including：Luminous energy receiver board and recharging base；Luminous energy receiver board side is provided with photo-electric conversion element, and recharging base is used for supporting luminous energy receiver board；Wherein, recharging base is provided with：Joint portion；Joint portion can make battery bag be bound to recharging base；On the direction of luminous energy receiver board, recharging base side connection luminous energy receiver board, opposite side arrange joint portion.The Luminous energy charger can utilize illumination, be charged to battery bag.The invention allows for a kind of charging combination with the Luminous energy charger and battery bag.

Description

Luminous energy charger and the combination of the charging with the Luminous energy charger

Technical field

The present invention relates to a kind of charger, and in particular to a kind of Luminous energy charger and the combination of the charging with the Luminous energy charger.

Background technology

The battery bag of existing adaptation electric tool, is generally needed to disassemble battery bag during charging, is charged using special battery bag charger.But existing battery bag charger is generally charged to battery bag by external AC, so not only waste electric energy, and when being operated in outdoor, particularly without power interface in the case of, then timely can not be charged to battery bag, affect the progress of work.

Content of the invention

A kind of Luminous energy charger, including：

Luminous energy receiver board, its side are provided with photo-electric conversion element；

Recharging base, for supporting luminous energy receiver board；

Wherein,

Recharging base is provided with：

Joint portion, can make battery bag be bound to recharging base；

On the direction of luminous energy receiver board, recharging base side connection luminous energy receiver board, opposite side arrange joint portion.

Further, recharging base is additionally provided with：

Charging terminal, can export electric energy to the battery bag for being bound to recharging base；

On the direction of luminous energy receiver board, photo-electric conversion element is located at the heteropleural of luminous energy receiver board with charging terminal.

Further,

Recharging base is additionally provided with：

Supporting part, can be such that luminous energy receiver board intersects with horizontal plane；

On the direction of luminous energy receiver board, recharging base side connection luminous energy receiver board, opposite side arrange supporting part.

Further, joint portion is provided with a bonding position, and joint portion can make battery bag be bound to recharging base along the bonding position；

Luminous energy receiver board is parallel to bonding position.

Further,

Recharging base is additionally provided with：

Supporting part, can be such that luminous energy receiver board intersects with horizontal plane；

When supporting part makes luminous energy receiver board intersect with horizontal plane, luminous energy receiver board is provided with the side of photo-electric conversion element upward, and recharging base is provided with the side of joint portion down.

Further, the number of luminous energy receiver board is more than or equal to 2, and in luminous energy receiver board, at least one is flexibly connected with recharging base composition.

Further, recharging base includes：

Incorporating section, for receiving the luminous energy receiver board being flexibly connected with recharging base.

Further, when luminous energy receiver board is housed to incorporating section, plural luminous energy receiver board is parallel to each other and they are along the direction arrangement perpendicular to luminous energy receiver board.

Further, Luminous energy charger at least has the charging voltage of more than 30V.

Another kind of Luminous energy charger, including：

Luminous energy receiver board, its side are provided with photo-electric conversion element；

Recharging base, for supporting luminous energy receiver board；

Wherein,

Recharging base is provided with：

Joint portion, can make battery bag be bound to recharging base；

On the direction of luminous energy receiver board, recharging base side connection luminous energy receiver board, opposite side arrange joint portion.

A kind of combination of charging, including battery bag and above-described Luminous energy charger, battery bag includes at least one core element, wherein, the span of the ratio of the effective area of the luminous energy receiver board of the gross weight of the core element in battery bag and Luminous energy charger is more than or equal to 0.5kg/m^2, less than or equal to 2.5kg/m^2.

The Luminous energy charger is charged to battery bag by receiving illumination, energy saving；Battery bag can be attached to the shady face of recharging base such that it is able to effectively suppress the temperature rise of battery bag.

Description of the drawings

Fig. 1 is the structural representation of the Luminous energy charger of one embodiment；

Fig. 2 is the structural representation in another orientation of structure shown in Fig. 1；

Fig. 3 be luminous energy receiver board be in deployed condition when Luminous energy charger structural representation；

Fig. 4 is the structural representation in another orientation of structure shown in Fig. 3；

Fig. 5 is structural representation when battery bag is bound to Luminous energy charger；

Structural representation when Fig. 6 is the second bracing frame support Luminous energy charger；

Fig. 7 be Luminous energy charger be in off working state when structural representation.

Specific embodiment

Make specific introduction to the present invention below in conjunction with the drawings and specific embodiments.

Fig. 1 to Fig. 6 show the Luminous energy charger 100 of one embodiment, and the Luminous energy charger 100 can receive illumination, and can convert solar energy into electric energy, then electric energy is exported to battery bag 200, so as to realize charging to battery bag 200.

As shown in Figure 1 to Figure 3, Luminous energy charger 100 includes：Luminous energy receiver board 10 and recharging base 20, wherein, the side of luminous energy receiver board 10 is provided with the photo-electric conversion element 11 that can convert light energy into electric energy, and recharging base 20 is used for supporting luminous energy receiver board 10.Recharging base 20 is additionally provided with：Supporting part 21 and joint portion 22.Supporting part 21 can be such that luminous energy receiver board 10 intersects with horizontal plane, can so improve the ability that photo-electric conversion element 11 collects solar energy.Joint portion 22 can make battery bag 200 be bound to recharging base 20, and when battery bag 200 is bound to recharging base 20, the Luminous energy charger 100 can be charged to battery bag 200.Wherein, on the direction of luminous energy receiver board 10,20 side of recharging base connection luminous energy receiver board 10, opposite side arranges joint portion 22, so when luminous energy receiver board 10 is in the state for receiving illumination（As shown in Figure 3 and Figure 4）Luminous energy receiver board 10 is located at the sensitive surface of recharging base 20; and joint portion 22 and battery bag 200 are located at the shady face of recharging base 20; the too fast problem of 200 temperature rise of battery bag that can so avoid battery bag 200 from causing towards sunlight; such that it is able to suppress the temperature rise of battery bag 200; protection battery bag 200, and extend the service life of battery bag 200.In addition, Luminous energy charger 100 can removably combine a battery bag 200, and can be charged to the battery bag 200 such that it is able to charged to battery bag 200 using natural resources, save energy, and compare environmental protection.Wherein, the Luminous energy charger 100 is different from existing solar charger; in existing solar charger; one energy-storage travelling wave tube would generally be set; electric energy is stored by energy-storage travelling wave tube, then the electric energy of storage is exported to external cell again, and existing solar charger can not be bound to battery on solar charger; so that both are configured to the entirety for moving together, but electric energy is exported to outside battery by a data wire or cable.And in the present embodiment, Luminous energy charger can not only be bound to battery bag 200 on recharging base 20, and the battery bag 200 is adapted to by the Luminous energy charger 100 is batteries for electric tools bag 200, in existing field of power tools, it is to be charged with solar energy also without a kind of any batteries for electric tools bag 200, this is a DM Development Milestone for field of power tools.

Luminous energy receiver board 10 is solar panel, and the photo-electric conversion element 11 that 10 side of luminous energy receiver board is arranged is and is installed on solar battery sheet on solar panel.Multiple photo-electric conversion elements 11 are provided with each luminous energy receiver board 10, and multiple photo-electric conversion elements 11 are connected in a circuit, such that it is able to export the electric energy of the demand of disclosure satisfy that.

In order to further increase the power output of Luminous energy charger 100, the number of luminous energy receiver board 10 is more than or equal to 2.But when the number of the luminous energy receiver board 10 in Luminous energy charger 100 is more, can undoubtedly increase the space shared by whole Luminous energy charger 100, so as to not readily portable and storage.Big in order to solve the problems, such as that Luminous energy charger 100 takes up room, in plural luminous energy receiver board 10, at least one is constituted with recharging base 20 and is flexibly connected, so, the luminous energy receiver board 10 being flexibly connected with recharging base 20 can be moved to the position for reducing the space shared by Luminous energy charger 100.

Further, recharging base 20 also includes incorporating section 23, incorporating section 23 is used for the luminous energy receiver board 10 that storage is flexibly connected with recharging base 20, and when luminous energy receiver board 10 is housed to incorporating section 23, plural luminous energy receiver board 10 is parallel to each other, and their edges are arranged in order perpendicular to the direction of luminous energy receiver board 10, so, when luminous energy receiver board 10 is arranged in order, the shared space in the plane parallel to luminous energy receiver board 10 of multiple luminous energy receiver boards 10 is identical with the space shared by a luminous energy receiver board 10.

Wherein, it can also be to be slidably connected that the flexible connection constituted with recharging base 20 by luminous energy receiver board 10 can be connected for rotation.When luminous energy receiver board 10 and recharging base 20 are rotated to be connected, the luminous energy receiver board 10 then can be turned to respect to recharging base 20 so that the luminous energy receiver board 10 position Chong Die with an other luminous energy receiver board 10；When luminous energy receiver board 10 is slidably connected with recharging base 20, the luminous energy receiver board 10 can then slide into the position of the side of another luminous energy receiver board 10.Corresponding, in order that luminous energy receiver board 10 is constituted with recharging base 20 and being rotated or being slidably connected, it is formed with incorporating section 23 so that luminous energy receiver board 10 and recharging base 20 are constituted rotates rotating shaft be connected, incorporating section 23 is also formed with the slide rail for causing luminous energy receiver board 10 and the composition of recharging base 20 to be slidably connected.

Further, as shown in Figure 1 again, when multiple luminous energy receiver boards 10 are overlapped, wherein, constitute to rotate apart from a farthest luminous energy receiver board 10 of recharging base 20 and recharging base 20 and be connected, and the side for making the luminous energy receiver board 10 be provided with photo-electric conversion element 11 can be turned to respect to opposite side near recharging base 20, so as to the side that the luminous energy receiver board 10 is provided with photo-electric conversion element 11 is in backlight position, and then the protection luminous energy receiver board 10 and the photo-electric conversion element 11 on the other luminous energy receiver boards 10 between the luminous energy receiver board 10 and recharging base 20 can be played.

Used as a specific embodiment, as shown in Figures 3 and 4, the luminous energy receiver board 10 can include 4, the first luminous energy receiver board 101, the second luminous energy receiver board 102, the 3rd luminous energy receiver board 103 and the 4th luminous energy receiver board 104 in respectively Fig. 4.Wherein the first luminous energy receiver board 101 is fixedly connected with recharging base 20, second luminous energy receiver board 102 and the 3rd luminous energy receiver board 103 are slidably connected with the first luminous energy receiver board 101, so, second luminous energy receiver board 102 and the 3rd luminous energy receiver board 103 are in the plane parallel to the first luminous energy receiver board 101, the both sides of the first luminous energy receiver board 101 can be slided out to, is launched with respect to the first luminous energy receiver board 101.In addition, the 4th luminous energy receiver board 104 constitutes to rotate with the first luminous energy receiver board 101 being connected, which can turn to the position of the position Chong Die with the first luminous energy receiver board 101 or expansion.It is obvious that when the second luminous energy receiver board 102, the 3rd luminous energy receiver board 103 and 104 relative first luminous energy receiver board 101 of the 4th luminous energy receiver board launch, the output of Luminous energy charger 100 can not only be increased, but also can preferably block battery bag 200.

20 side of recharging base be used for supporting luminous energy receiver board 10, opposite side for combine battery bag 200, for this purpose, the side of the support of recharging base 20 luminous energy receiver board 10 forms foregoing receiving portion, the side in conjunction with battery bag 200 forms foregoing joint portion 22.As shown in figure 5, joint portion 22 is additionally provided with a bonding position Z, the such as joint portion 22 is formed with one and combines track 221, causes battery bag 200 to be bound to recharging base 20 along bonding position Z by this with reference to track 221.Wherein, also parallel with bonding position Z, so, battery bag 200 can be bound to joint portion 22 along the direction parallel to luminous energy receiver board 10 to luminous energy receiver board 10, so as to user friendly operation.In addition, in order to the service life for extending Luminous energy charger 100, recharging base 20 can also be made using antiultraviolet material, so recharging base 20 can be avoided from being exposed to the sun for a long time and aging.

As described above, supporting part 21 can be such that luminous energy receiver board 10 intersects with horizontal plane, on the direction of luminous energy receiver board 10, luminous energy receiver board 10 is arranged on the side of recharging base 20, and the opposite side of recharging base 20 then arranges the supporting part 21.So, when supporting part 21 supports recharging base 20, enable to the side of the setting luminous energy of recharging base 20 receiver board 10 upward, and now joint portion 22 and homonymy is arranged on supporting part 21, thus now recharging base 20 is provided with the side of joint portion 22 down, the battery bag 200 of recharging base 20 is so bound in backlight position, such that it is able to effectively suppress the temperature rise of battery bag 200.Need exist for illustrate be, recharging base 20 is provided with the side of luminous energy receiver board 10 and refers to upward, when Luminous energy charger 100 is in the state for receiving illumination, recharging base 20 is provided with the side of luminous energy receiver board 10 with respect to opposite side away from ground, rather than to be limited to the free position of recharging base 20 be such.

Specifically, as shown in Figure 2 and Figure 6, supporting part 21 is formed by the first bracing frame 24 and/or the second bracing frame 25, first bracing frame 24 can cause luminous energy receiver board 10 to form an angle changed in the first preset range with horizontal plane, and the second bracing frame 25 can cause luminous energy receiver board 10 to form an angle changed in the second preset range with horizontal plane.Specifically, shown in Figure 2, the first bracing frame 24 is installed on recharging base 20, and the rotation constituted with first axle L as axle with recharging base 20 is connected, and first axle L is parallel to luminous energy receiver board 10.When 24 relative 20 rotational angle of recharging base of the first bracing frame is zero, now Luminous energy charger 100 is now easy to the movement and carrying of Luminous energy charger 100 in off working state as shown in Figure 7.When the first bracing frame 24 is more than zero relative to the angle that recharging base 20 is rotated, the first bracing frame 24 can support recharging base 20 that the angle between luminous energy receiver board 10 and horizontal plane is changed in the first preset range.The angle between luminous energy receiver board 10 and horizontal plane can for example be caused more than 40 degree and less than 90 degree.Further, multiple energy can also be set on recharging base 20 so that the first bracing frame 24 is positioned at the stop part 26 of predeterminated position such that it is able to realize quick positioning.

In addition, shown in Figure 6, the second bracing frame 25 is installed on recharging base 20, and the rotation constituted with second axis M as axle with recharging base 20 is connected, and second axis M are parallel to luminous energy receiver board 10.When 25 relative 20 rotational angle of recharging base of the second bracing frame is zero, now Luminous energy charger 100 is also at the off working state shown in Fig. 7, is now easy to the movement and carrying of Luminous energy charger 100.When the second bracing frame 25 is more than zero relative to the angle that recharging base 20 is rotated, second bracing frame 25 can support recharging base 20 that the angle between luminous energy receiver board 10 and horizontal plane is changed in the second preset range, for example, can cause the angle between luminous energy receiver board 10 and horizontal plane more than 20 degree and less than 40 degree.Further, the second bracing frame 25 is two support bars, and the two support bars enable to angle between luminous energy receiver board 10 and horizontal plane outside the first preset range.

In other words, first bracing frame 24 can cause recharging base 20 in the larger position of the angle between luminous energy receiver board 10 and horizontal plane, enable adaptation to angle in one day between sunray and horizontal plane larger a period of time, and the second support member can cause recharging base 20 in the less position of angle between luminous energy receiver board 10 and horizontal plane such that it is able to adapt to angle in one day between sunray and horizontal plane less another a period of time.

When being bound to Luminous energy charger 100 for battery bag 200, i.e., can charge to battery bag 200, recharging base 20 is additionally provided with charging terminal 27.Charging terminal 27 can export electric energy to the battery bag 200 for being bound to recharging base 20, and on the direction of luminous energy receiver board 10, photo-electric conversion element 11 is located at the heteropleural of luminous energy receiver board 10 with charging terminal 27.Further, charging terminal 27 is arranged at joint portion 22, and so when battery bag 200 is attached to joint portion 22,200 terminal of battery bag can be electrically connected with charging terminal 27.

Further, Luminous energy charger 100 can also include angle adjusting mechanism, cooling mechanism, proof mechanism of water and standby charging mechanism.

Wherein, angle adjusting mechanism can adjust the angle between luminous energy receiver board 10 and recharging base 20, so as to realize that 10 solar energy collecting ability of luminous energy receiver board increases.The angle adjusting mechanism can also adopt electrical adjustment mode, enable to 10 automatic sun-tracking light of luminous energy receiver board by electrical adjustment mode, so that solar energy collecting ability reaches maximum.

Because Luminous energy charger 100 is typically outdoor work, therefore when charging, 200 temperature rise of battery bag is relatively fast, for this, the Luminous energy charger 100 also includes foregoing cooling mechanism, the cooling mechanism can radiate to the battery bag 200 for being bound to recharging base 20, it is also possible to be radiated to the control board included in Luminous energy charger 100.Specifically, for example, it is possible to be provided with the accommodating chamber of a receiving control board on recharging base 20, a fan is provided with the accommodating chamber, the fan can radiate for control board, and the accommodating chamber is additionally provided with an air stream outlet, and the air stream outlet can be oriented to radiating airflow and blow to battery bag 200.

Proof mechanism of water is used for protecting charging terminal 27 and battery bag 200, for example, be provided with a waterproof clamshell at joint portion 22.The waterproof cover is covered on before battery bag 200 is attached to joint portion 22, can cover charging terminal 27；When battery bag 200 is combined, the waterproof clamshell can be opened；After battery bag 200 is already mounted to joint portion 22, the waterproof clamshell can also further cover battery bag 200.

It is known that when there is cloudy or cloudy weather, the intensity of illumination suffered by Luminous energy charger 100 can not meet the charge requirement of battery bag 200, and in order to solve this problem, the Luminous energy charger 100 is additionally provided with a standby charging mechanism.Specifically, can be charging socket 28, the charging socket 28 can external electric energy, so as to be charged to battery bag 200 by way of external AC etc..Certainly, in order to receive the charging socket 28, the wire-rewinding structure for receiving the power line for connecting the charging socket 28 is may be provided on recharging base 20.Or, an energy storage device is provided with Luminous energy charger 100, the energy storage device can temporarily store the electric energy of the conversion of luminous energy receiver board 10, when cloudy or cloudy etc. weather occur, it is possible to use the electric energy of energy storage device memory storage charges to battery bag 200.

For the ease of carrying and mobile Luminous energy charger 100, the handle 29 for gripping on the recharging base 20 of the Luminous energy charger 100, is additionally provided with for user.Further, recharging base 20 is additionally provided with road wheel（Not shown）, so facilitate user to drag the Luminous energy charger 100.

The conversion efficiency of the quantity of the luminous energy receiver board 10 of the Luminous energy charger 100 and photo-electric conversion element 11 is sufficient so that Luminous energy charger 100 and can charge to battery bag 200, further, the Luminous energy charger 100 at least has the charging voltage of more than 30V, further, the Luminous energy charger 100 can charge to the battery bag 200 for being applied to electric tool.

Fig. 4 show the charging combination of one embodiment, and the charging combination includes battery bag 200 and foregoing Luminous energy charger 100.Battery bag 200 includes at least one core element, the gross weight of all core elements wherein in battery bag 200 more than or equal to 0.5kg/m^2 and is less than or equal to 2.5kg/m^2 with the span of the ratio of the effective area of luminous energy receiver board 10 such that it is able to which the charging duration for meeting battery bag 200 meets user normally using the demand of instrument.Wherein, the effective area of luminous energy receiver board 10 refers to the gross area of all of photo-electric conversion element 11 on luminous energy receiver board 10.

The basic principles, principal features and advantages of the present invention have been shown and described above.It should be understood by those skilled in the art that, the invention is not limited in any way for above-described embodiment, all technical schemes obtained by the way of equivalent or equivalent transformation, all falls within protection scope of the present invention.

Claims (10)

1. a kind of Luminous energy charger, including：

Luminous energy receiver board, its side are provided with photo-electric conversion element；

Recharging base, for supporting the luminous energy receiver board；

Wherein,

The recharging base is provided with：

Joint portion, can make battery bag be bound to the recharging base；

On the direction of the luminous energy receiver board, the recharging base side connects the luminous energy receiver board, opposite side and arranges the joint portion.

2. Luminous energy charger according to claim 1, it is characterised in that：

The recharging base is additionally provided with：

Charging terminal, can export electric energy to the battery bag for being bound to the recharging base；

On the direction of the luminous energy receiver board, the photo-electric conversion element is located at the heteropleural of the luminous energy receiver board with the charging terminal.

3. Luminous energy charger according to claim 1, it is characterised in that：

The recharging base is additionally provided with：

Supporting part, can be such that the luminous energy receiver board intersects with horizontal plane；

On the direction of the luminous energy receiver board, the recharging base side connects the luminous energy receiver board, opposite side and arranges the supporting part.

4. Luminous energy charger according to claim 1, it is characterised in that：

The joint portion is provided with a bonding position, and the joint portion can make battery bag be bound to the recharging base along the bonding position；

The luminous energy receiver board is parallel to the bonding position.

5. Luminous energy charger according to claim 1, it is characterised in that：

The recharging base is additionally provided with：

Supporting part, can be such that the luminous energy receiver board intersects with horizontal plane；

When the supporting part makes the luminous energy receiver board intersect with horizontal plane, the luminous energy receiver board is provided with the side of the photo-electric conversion element upward, and the recharging base is provided with the side of the joint portion down.

6. Luminous energy charger according to claim 1, it is characterised in that：

The number of the luminous energy receiver board is more than or equal to 2, and in the luminous energy receiver board, at least one is flexibly connected with recharging base composition.

7. Luminous energy charger according to claim 6, it is characterised in that：

The recharging base includes：

Incorporating section, for receiving the luminous energy receiver board being flexibly connected with the recharging base.

8. photovoltaic charger according to claim 7, it is characterised in that：

When the luminous energy receiver board is housed to the incorporating section, the plural luminous energy receiver board is parallel to each other and they are along the direction arrangement perpendicular to the luminous energy receiver board.

9. Luminous energy charger according to claim 1, it is characterised in that：

The Luminous energy charger at least has the charging voltage of more than 30V.

10. a kind of combination of charging, including battery bag and the Luminous energy charger as described in claim 1 to 9 any one, the battery bag includes at least one core element, wherein, the gross weight of all described core element in the battery bag is more than or equal to 0.5kg/m^2, is less than or equal to 2.5kg/m^2 with the span of the ratio of the effective area of the luminous energy receiver board of the Luminous energy charger.