CN106505711B - Luminous energy charger and with the Luminous energy charger charging combination - Google Patents

Abstract

The invention discloses a kind of Luminous energy chargers, comprising: luminous energy receiver board and recharging base；Luminous energy receiver board side is equipped with photo-electric conversion element, and recharging base is used to support luminous energy receiver board；Wherein, recharging base is equipped with: engaging portion；Engaging portion can make battery pack be bound to recharging base；On the direction perpendicular to luminous energy receiver board, recharging base side connects luminous energy receiver board, engaging portion is arranged in the other side.The Luminous energy charger can utilize illumination, charge to battery pack.The charging combination with the Luminous energy charger and battery pack that the invention also provides a kind of.

Description

Luminous energy charger and with the Luminous energy charger charging combination

Technical field

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

Background technique

The battery pack of existing adaptation electric tool, when charging, usually require to disassemble battery pack, and use is dedicated Battery pack charger charges.But existing battery pack charger, which usually supplies electricity to battery pack by external exchange, to be filled Electricity not only wastes electric energy in this way, but also then cannot in the case where especially no power interface when being worked in outdoor It timely charges to battery pack, influences the progress of work.

Summary of the invention

A kind of Luminous energy charger, comprising:

Luminous energy receiver board, one side are equipped with photo-electric conversion element；

Recharging base is used to support luminous energy receiver board；

Wherein,

Recharging base is equipped with:

Engaging portion can make battery pack be bound to recharging base；

On the direction perpendicular to luminous energy receiver board, recharging base side connects luminous energy receiver board, other side setting combines Portion.

Further, recharging base is additionally provided with:

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

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

Further,

Recharging base is additionally provided with:

Support portion can be such that luminous energy receiver board tilts with horizontal plane and intersect；

On the direction perpendicular to luminous energy receiver board, recharging base side connects luminous energy receiver board, other side setting support Portion.

Further, engaging portion is equipped with a bonding position, and engaging portion can be such that battery pack is bound to along the bonding position to fill Electric pedestal；

Luminous energy receiver board is parallel to bonding position.

Further,

Recharging base is additionally provided with:

Support portion can be such that luminous energy receiver board tilts with horizontal plane and intersect；

When support portion intersects luminous energy receiver board with horizontal plane inclination, luminous energy receiver board is equipped with the one of photo-electric conversion element Upward, recharging base is equipped with the side of engaging portion downward for side.

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

Further, recharging base includes:

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

Further, when luminous energy receiver board is accommodated to incorporating section, more than two luminous energy receiver boards it is parallel to each other and it Along perpendicular to luminous energy receiver board direction arrange.

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

Another Luminous energy charger, comprising:

Luminous energy receiver board, one side are equipped with photo-electric conversion element；

Recharging base is used to support luminous energy receiver board；

Wherein,

Recharging base is equipped with:

Engaging portion can make battery pack be bound to recharging base；

On the direction perpendicular to luminous energy receiver board, recharging base side connects luminous energy receiver board, other side setting combines Portion.

A kind of charging combination, including battery pack and above-described Luminous energy charger, battery pack include at least one battery core Element, wherein the ratio of the effective area of the luminous energy receiver board of the total weight and Luminous energy charger of the core element in battery pack Value range be more than or equal to 0.5kg/m^2, be less than or equal to 2.5kg/m^2.

The Luminous energy charger is charged by receiving illumination to battery pack, energy saving；Battery pack can be installed to charging base The shady face of seat, so as to effectively inhibit the temperature rise of battery pack.

Detailed description of the invention

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

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

Fig. 3 is the structural schematic diagram of Luminous energy charger when luminous energy receiver board is in unfolded state；

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

Fig. 5 is structural schematic diagram when battery pack is bound to Luminous energy charger；

Structural schematic diagram when Fig. 6 is the second support frame support Luminous energy charger；

Fig. 7 is structural schematic diagram when Luminous energy charger is in off working state.

Specific embodiment

Specific introduce is made 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, which can receive illumination, And electric energy can be converted solar energy into, then by power output to battery pack 200, charge to realize to battery pack 200.

As shown in Figure 1 to Figure 3, Luminous energy charger 100 includes: luminous energy receiver board 10 and recharging base 20, wherein luminous energy connects The side for receiving plate 10 is equipped with the photo-electric conversion element 11 that can convert light energy into electric energy, and recharging base 20 is used to support luminous energy reception Plate 10.Recharging base 20 is additionally provided with: support portion 21 and engaging portion 22.Support portion 21 can be such that luminous energy receiver board 10 and horizontal plane tilts Intersection can be improved the ability that photo-electric conversion element 11 collects solar energy in this way.Engaging portion 22 can be such that battery pack 200 is bound to fill Electric pedestal 20, when battery pack 200 is bound to recharging base 20, which can fill battery pack 200 Electricity.Wherein, on the direction perpendicular to luminous energy receiver board 10,20 side of recharging base connection luminous energy receiver board 10, the other side are set Engaging portion 22 is set, in this way 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 are located at the light-receiving surface of recharging base 20, and engaging portion 22 and battery pack 200 are located at the shady face of recharging base 20, in this way may be used To avoid the problem that battery pack 200 is too fast towards 200 temperature rise of battery pack caused by sunlight, so as to inhibit battery pack 200 Temperature rise, protect battery pack 200, and extend the service life of battery pack 200.In addition, Luminous energy charger 100 can be dismountable It in conjunction with a battery pack 200, and can charge to the battery pack 200, so as to utilize natural resources to battery pack 200 Energy is saved in charging, and more environmentally friendly.Wherein, which is different from existing solar charger, existing In solar charger, it will usually an energy-storage travelling wave tube be set, electric energy is stored by energy-storage travelling wave tube, then again by the electric energy of storage It exports to external cell, and battery cannot be bound on solar charger by existing solar charger, so that the two structure At the entirety that can be moved together, but pass through a data line or cable for power output to external battery.And this reality It applies in example, battery pack 200 can not only be bound on recharging base 20 by Luminous energy charger, and 100 institute of Luminous energy charger The battery pack 200 of adaptation is batteries for electric tools packet 200, and in existing field of power tools, there are no any one kind Batteries for electric tools packet 200 is to can be carried out charging with the sun, this is a development mileage for field of power tools Upright stone tablet.

Luminous energy receiver board 10 is solar panel, and the photo-electric conversion element 11 of 10 side of luminous energy receiver board setting is to pacify Loaded on the solar battery sheet on solar panel.Multiple photo-electric conversion elements 11 are equipped on each luminous energy receiver board 10, Multiple photo-electric conversion elements 11 are connected in a circuit, so as to export the electric energy for the demand of can satisfy.

In order to further increase the output power of Luminous energy charger 100, the number of luminous energy receiver board 10 is more than or equal to 2.But It is that undoubtedly will increase entire 100 institute of Luminous energy charger when the number of the luminous energy receiver board 10 in Luminous energy charger 100 is more The space occupied, thus not readily portable and storage.In order to solve the problems, such as that 100 occupied space of Luminous energy charger is big, two with On luminous energy receiver board 10 at least one composition is flexibly connected with recharging base 20, in this way, with 20 activity company of recharging base The luminous energy receiver board 10 connect can be moved to the position for reducing the occupied space of Luminous energy charger 100.

Further, recharging base 20 further includes incorporating section 23, and incorporating section 23 is for storing with 20 activity of recharging base even The luminous energy receiver board 10 connect, and at the receiving of luminous energy receiver board 10 to incorporating section 23, more than two luminous energy receiver boards 10 are mutually In parallel, and they are arranged successively along the direction perpendicular to luminous energy receiver board 10, in this way, when luminous energy receiver board 10 is arranged successively, Multiple luminous energy receiver boards 10 occupied space and 10 institute of luminous energy receiver board in the plane for being parallel to luminous energy receiver board 10 The space occupied is identical.

Wherein, what luminous energy receiver board 10 and recharging base 20 were constituted, which be flexibly connected, for rotation connection or can slide Dynamic connection.When luminous energy receiver board 10 and recharging base 20 are rotatablely connected, which then can be with respect to recharging base 20 turn to 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 with When recharging base 20 is slidably connected, which can then slide into the position of the side of another luminous energy receiver board 10 It sets.It is corresponding, in order to enable luminous energy receiver board 10 constitutes rotation with recharging base 20 or is slidably connected, formed in incorporating section 23 Have so that luminous energy receiver board 10 and recharging base 20 constitute the shaft of rotation connection, incorporating section 23 is also formed with for so that luminous energy Receiver board 10 and recharging base 20 constitute the sliding rail being slidably connected.

Further, then as shown in Figure 1, when multiple luminous energy receiver boards 10 are overlapped, wherein apart from recharging base 20 A farthest luminous energy receiver board 10 and recharging base 20, which are constituted, to be rotatablely connected, and is able to rotate to being equipped with the luminous energy receiver board 10 The side of photo-electric conversion element 11 with respect to the other side close to recharging base 20, thus the luminous energy receiver board 10 be equipped with photoelectric conversion element The side of part 11 is in backlight position, and then can play and protect the luminous energy receiver board 10 and positioned at 10 He of luminous energy receiver board The photo-electric conversion element 11 on other luminous energy receiver boards 10 between recharging base 20.

As a specific embodiment, as shown in Figures 3 and 4, which may include 4, respectively Fig. 4 In the first luminous energy receiver board 101, the second luminous energy receiver board 102, third luminous energy receiver board 103 and the 4th luminous energy receiver board 104.Wherein the first luminous energy receiver board 101 is fixedly connected with recharging base 20, and the second luminous energy receiver board 102 and third luminous energy receive Plate 103 is slidably connected with the first luminous energy receiver board 101, in this way, the second luminous energy receiver board 102 and third luminous energy receiver board 103 exist Be parallel in the plane of the first luminous energy receiver board 101, the two sides of the first luminous energy receiver board 101 can be slided out to, it is opposite this first Luminous energy receiver board 101 is unfolded.In addition, the 4th luminous energy receiver board 104 and the first luminous energy receiver board 101 are constituted and are rotatablely connected, it can To turn to the position of the position or expansion Chong Die with the first luminous energy receiver board 101.It is obvious that the second luminous energy receiver board 102, When third luminous energy receiver board 103 and the opposite first luminous energy receiver board 101 of the 4th luminous energy receiver board 104 are unfolded, it can not only increase The output of big Luminous energy charger 100, but also can preferably block battery pack 200.

20 side of recharging base is used to support luminous energy receiver board 10, the other side is used to combine battery pack 200, for this purpose, charging Pedestal 20 support luminous energy receiver board 10 side form above mentioned receiving portion, in conjunction with battery pack 200 side formed it is above Described engaging portion 22.As shown in figure 5, engaging portion 22 is additionally provided with a bonding position Z, such as the engaging portion 22 is formed with one In conjunction with track 221, combine track 221 that battery pack 200 is made to be bound to recharging base 20 along bonding position Z by this.Wherein, Luminous energy receiver board 10 is also parallel with bonding position Z, in this way, battery pack 200 can be tied along the direction for being parallel to luminous energy receiver board 10 It is bonded to engaging portion 22, to facilitate the operation of user.In addition, in order to extend the service life of Luminous energy charger 100, recharging base 20 can also be made of antiultraviolet material, can be exposed to the sun and aging for a long time to avoid recharging base 20 in this way.

Intersect as described above, support portion 21 can be such that luminous energy receiver board 10 tilts with horizontal plane, perpendicular to luminous energy receiver board On 10 direction, the side of recharging base 20 is arranged in luminous energy receiver board 10, and the branch is then arranged in the other side of recharging base 20 Support part 21.In this way, enabling to recharging base 20 to be arranged the one of luminous energy receiver board 10 when support portion 21 supports recharging base 20 Side upward, and at this time engaging portion 22 and with the setting of support portion 21 ipsilateral, thus recharging base 20 is equipped with engaging portion 22 at this time Downward, the battery pack 200 for being bound to recharging base 20 in this way is in backlight position, so as to effectively inhibit battery pack for side 200 temperature rise.What needs to be explained here is that the side that recharging base 20 is equipped with luminous energy receiver board 10 is referred to upward in luminous energy When charger 100 is in the state for receiving illumination, the side that recharging base 20 is equipped with luminous energy receiver board 10 is separate with respect to the other side Ground, rather than the free position for being limited to recharging base 20 is such.

Specifically, as shown in Figure 2 and Figure 6, support portion 21 is formed by the first support frame 24 and/or the second support frame 25, the One support frame 24 can make luminous energy receiver board 10 and horizontal plane form an angle changed in the first preset range, and second Support 25 can make luminous energy receiver board 10 and horizontal plane form an angle changed in the second preset range.Specifically, ginseng As shown in Figure 2, the first support frame 24 is installed on recharging base 20, and constitutes with recharging base 20 using first axle L as axis and turn Dynamic connection, first axle L are parallel to luminous energy receiver board 10.When opposite 20 rotational angle of recharging base of the first support frame 24 is zero When, Luminous energy charger 100 is in off working state as shown in Figure 7 at this time, at this time moving and taking convenient for Luminous energy charger 100 Band.When the first support frame 24 is greater than zero relative to the angle that recharging base 20 rotates, the first support frame 24 can support recharging base 20 change the angle between luminous energy receiver board 10 and horizontal plane in the first preset range.Such as can luminous energy be received Angle between plate 10 and horizontal plane is greater than 40 degree and less than 90 degree.Further, can also be arranged on recharging base 20 more A stop part 26 that the first support frame 24 can be made to be located in predeterminated position, so as to realize quick positioning.

In addition, shown in Figure 6, the second support frame 25 is installed on recharging base 20, and constitutes with recharging base 20 with the Two axis M are the rotation connection of axis, and second axis M is parallel to luminous energy receiver board 10.When the opposite charging base of the second support frame 25 When 20 rotational angles of seat are zero, Luminous energy charger 100 is also at off working state shown in Fig. 7 at this time, is convenient for optical energy charging at this time The movement and carrying of electric appliance 100.When the second support frame 25 is greater than zero relative to the angle that recharging base 20 rotates, the second support 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, such as The angle between luminous energy receiver board 10 and horizontal plane can be made to be greater than 20 degree and less than 40 degree.Further, the second support frame 25 be two support rods, the two support rods enable to the angle between luminous energy receiver board 10 and horizontal plane default first Except range.

In other words, the first support frame 24 can make recharging base 20 be in the folder between luminous energy receiver board 10 and horizontal plane The biggish position in angle, enables adaptation to angle biggish a period of time in one day between sunray and horizontal plane, and The lesser position of angle that two supporting elements can make recharging base 20 be between luminous energy receiver board 10 and horizontal plane, so as to Adapt to angle lesser another a period of time in one day between sunray and horizontal plane.

It when being bound to Luminous energy charger 100 for battery pack 200, can charge to battery pack 200, recharging base 20 is also Equipped with charging terminal 27.Charging terminal 27 can export electric energy to the battery pack 200 for being bound to recharging base 20, perpendicular to luminous energy On the direction of receiver board 10, photo-electric conversion element 11 is located at the heteropleural of luminous energy receiver board 10 with charging terminal 27.Further, it fills Electric terminal 27 is set at engaging portion 22, and in this way when the installation of battery pack 200 to engaging portion 22,200 terminal of battery pack can It is 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 Use charging mechanism.

Wherein, angle adjusting mechanism is adjustable the angle between luminous energy receiver board 10 and recharging base 20, to realize light It can the increase of 10 solar energy collecting ability of receiver board.The angle adjusting mechanism can also use electrical adjustment mode, pass through electronics tune Section mode enables to 10 automatic sun-tracking light of luminous energy receiver board, so that solar energy collecting ability reaches maximum.

Because Luminous energy charger 100 is usually outdoor work, in charging, 200 temperature rise of battery pack is relatively fast, is This, which further includes above mentioned cooling mechanism, which can be bound to recharging base 20 Battery pack 200 radiates, and can also radiate to control circuit board included in Luminous energy charger 100.Specifically, for example, It can be equipped with the accommodating chamber of a receiving control circuit board on recharging base 20, be equipped with a fan, the wind in the accommodating chamber Fan can radiate for control circuit board, which is additionally provided with an air stream outlet, which can be oriented to radiating airflow Blow to battery pack 200.

Proof mechanism of water is used to protect charging terminal 27 and battery pack 200, such as a waterproof is equipped at engaging portion 22 Clamshell.The waterproof cover covers on before the installation to engaging portion 22 of battery pack 200, can cover charging terminal 27；Combining battery pack When 200, the waterproof clamshell can be opened；After battery pack 200 is already mounted to engaging portion 22, which is further gone back Battery pack 200 can be covered.

It is known that intensity of illumination suffered by Luminous energy charger 100 cannot when there is cloudy day or cloudy weather Meet the charge requirement of battery pack 200, in order to solve this problem, which is additionally provided with a spare charger Structure.Specifically, can be charging socket 28, the charging socket 28 can external electric energy, thus the side for passing through external alternating current etc. Formula charges to battery pack 200.Certainly, in order to store the charging socket 28, it may be provided for storage on recharging base 20 and connect Connect the wire-rewinding structure of the power supply line of the charging socket 28.Alternatively, being equipped with an energy storage device, the storage in Luminous energy charger 100 Energy device can temporarily store the electric energy of the conversion of luminous energy receiver board 10, when there is cloudy or cloudy etc. weather, Ke Yili It is charged with the electric energy stored in energy storage device to battery pack 200.

For the ease of carrying and moving Luminous energy charger 100, use is additionally provided on the recharging base 20 of the Luminous energy charger 100 In the handle 29 held for user.Further, recharging base 20 is additionally provided with traveling wheel (not shown) so that it is convenient to which user drags The Luminous energy charger 100.

The quantity of the luminous energy receiver board 10 of the Luminous energy charger 100 and the transfer efficiency of photo-electric conversion element 11 are enough to make Obtaining Luminous energy charger 100 can charge to battery pack 200, and further, which at least has 30V's or more Charging voltage, in turn, the Luminous energy charger 100 can charge to the battery pack 200 suitable for electric tool.

Fig. 4 show the charging combination of one embodiment, and charging combination includes battery pack 200 and above mentioned luminous energy Charger 100.Battery pack 200 includes at least one core element, wherein the total weight of all core elements in battery pack 200 It is more than or equal to 0.5kg/m^2 with the value range of the ratio of the effective area of luminous energy receiver board 10 and is less than or equal to 2.5kg/m^2, So as to meet the demand that the charging duration of battery pack 200 meets user's normal use tool.Wherein, luminous energy receiver board 10 Effective area refers to the gross area of all photo-electric conversion elements 11 on luminous energy receiver board 10.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the above embodiments do not limit the invention in any form, all obtained by the way of equivalent substitution or equivalent transformation Technical solution is fallen within the scope of protection of the present invention.

Claims (8)

1. a kind of Luminous energy charger, is suitable for batteries for electric tools packet, the Luminous energy charger includes:

Luminous energy receiver board, one side are equipped with photo-electric conversion element；

Recharging base is used to support the luminous energy receiver board；

Wherein,

The recharging base is equipped with:

Engaging portion can make battery pack be bound to the recharging base；

On the direction perpendicular to the luminous energy receiver board, the recharging base side connects the luminous energy receiver board, the other side The engaging portion is set；

The recharging base is additionally provided with:

Charging terminal can export electric energy to the battery pack for being bound to the recharging base；The charging terminal is set to engaging portion Place；

The Luminous energy charger can removably combine a battery pack；

The Luminous energy charger at least has the charging voltage of 30V or more；

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

The battery pack can be blocked upon deployment by constituting the luminous energy receiver board being flexibly connected with the recharging base.

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

On the direction perpendicular to the luminous energy receiver board, the photo-electric conversion element and the charging terminal are located at the luminous energy The heteropleural of receiver board.

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

The recharging base is additionally provided with:

Support portion can be such that the luminous energy receiver board tilts with horizontal plane and intersect；

On the direction perpendicular to the luminous energy receiver board, the recharging base side connects the luminous energy receiver board, the other side The support portion is set.

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

The engaging portion is equipped with a bonding position, and the engaging portion can make battery pack be bound to the charging along the bonding position Pedestal；

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:

Support portion can be such that the luminous energy receiver board tilts with horizontal plane and intersect；

When the support portion intersects the luminous energy receiver board with horizontal plane inclination, the luminous energy receiver board is equipped with the photoelectricity Upward, the recharging base is equipped with the side of the engaging portion downward for the side of conversion element.

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

The recharging base includes:

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

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

When the luminous energy receiver board is accommodated to the incorporating section, more than two luminous energy receiver boards it is parallel to each other and they It arranges along the direction perpendicular to the luminous energy receiver board.

8. a kind of charging combination, including battery pack and Luminous energy charger as claimed in any one of claims 1 to 7, the electricity Chi Bao includes at least one core element, wherein the total weight of all core elements in the battery pack and the light The value range of the ratio of the effective area of the luminous energy receiver board of energy charger is more than or equal to 0.5kg/m^2, is less than or equal to 2.5kg/m^2。