CN205617266U - Solar spike nail - Google Patents
Solar spike nail Download PDFInfo
- Publication number
- CN205617266U CN205617266U CN201620259568.XU CN201620259568U CN205617266U CN 205617266 U CN205617266 U CN 205617266U CN 201620259568 U CN201620259568 U CN 201620259568U CN 205617266 U CN205617266 U CN 205617266U
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- China
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- light source
- reflective membrane
- storage tank
- solar energy
- main casing
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Abstract
The utility model discloses a solar spike nail, it includes: shell body and light -emitting component, have the cavity of holding in the shell body, hold the cavity and include: the storage tank, locate the storage tank wherein one side first light source groove, light -emitting component includes: locate the storage tank top photovoltaic panel, locate first light source inslot first light source, locate the first reflective membrane of storage tank opposite side and locate the energy storage device of storage tank bottom, photovoltaic panel is connected with the energy storage device electricity, first light source is connected with the energy storage device electricity, first reflective membrane is 100~120 degrees with the contained angle on ground. The utility model discloses solar spike nail changes traditional light projection angle to 100~120 degrees, and the more abundant warning driver of light energy that the light source that makes underground solar spike nail sent overcomes the tradition because the light projection angle is uncomfortable, and solar spike nail can not play the drawback of abundant warning driver's effect.
Description
Technical field
This utility model relates to a kind of solar energy spike, particularly relates to a kind of buried solar energy spike.
Background technology
In prior art, in order to enable buried solar energy spike to play its sufficient warning reflection effect,
Consider the most from the following aspect: on the one hand, when carrying out product design, change the setting angle of light source or allow
Light source is exposed on ground, but this kind of Structural design idea, solar energy spike still cannot be overcome by ground
Face or product itself stop light so that product itself still can not play itself due warning function;Separately
On the one hand, when carrying out solar energy spike and installing, solar energy spike is imbedded underground, the most all makes it expose
Ground level is above the ground level more than 20mm, although this embedded mode can be supplied to the direct light source of driver with anti-
Light warns, but causes the normal driving of driver and directly affect, if it is less, too to basset during embedment
Sun can not can directly provide driver to warn again by railway spike;Again or, directly by solar energy spike with glue side
Formula is attached to ground and installs, and this mounting means makes solar energy spike easily come off.
Utility model content
In order to overcome the design of existing solar energy spike structure can not well give full play to its warning function, this reality
Solar energy spike with a kind of new structure of novel offer.
In order to solve above-mentioned technical problem, this utility model discloses a kind of solar energy spike, comprising:
Shell body and luminescence component;
Having a receiving cavity in shell body, receiving cavity includes: storage tank, be located at storage tank wherein
First light source slot of side;
Luminescence component includes: be located at storage tank top photovoltaic electroplax, be located in the first light source slot
One light source, it is located at the first reflective membrane of storage tank opposite side and is located at the accumulator bottom storage tank
Part;
Photovoltaic electroplax electrically connects with energy storage device;First light source electrically connects with energy storage device;First reflective membrane with
The angle on ground is 100~120 degree.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
Receiving cavity also includes: with the secondary light source groove of the first reflective membrane homonymy;
Luminescence component also includes: be located at the secondary light source in secondary light source groove and with the first light source slot homonymy
Second reflective membrane;Secondary light source electrically connects with energy storage device;The angle on the second reflective membrane and ground be 100~
120 degree.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
Secondary light source groove and the first light source slot are symmetrical about the horizontal axis of storage tank;Second reflective membrane and
One reflective membrane is symmetrical about the horizontal axis of storage tank.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
First reflective membrane is arranged at secondary light source trench bottom outer surface;Second reflective membrane is located at the bottom of the first light source slot
Portion's outer surface.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
Shell body includes:
At least partly basset above main casing and be embedded in the sub-shell of below ground;
Main casing fastens with sub-shell and forms receiving cavity, and it is above that storage tank is then positioned at basseting of main casing
The underface of part;
Or, main casing and sub-shell one-body molded formation receiving cavity, storage tank is then positioned at exposing of main casing
The underface of ground above section.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
First reflective membrane is 100~110 degree with the angle on ground.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
Second reflective membrane is 100~110 degree with the angle on ground.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
Space inside main casing, between main casing and the first reflective membrane and main casing and the second reflective membrane it
Between space three at least one is filled with transparent reflective material layer.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
Energy storage device is rechargeable battery or charging capacitor.
According to an embodiment of the present utility model, in above-mentioned solar energy spike:
First light source and secondary light source are LED lamp bead.
Compared with prior art, this utility model can obtain and include techniques below effect: the first reflective membrane with
The angle on ground is set to 100-120 degree, and the light that the first light source sends, after the first reflective membrane reflection, reflects
Light irradiates wider, increases light and enters the scope at driver visual angle, more fully plays driver
Warning function;In preference, it is additionally provided with secondary light source and the second reflective membrane, the second reflective membrane and ground
Angle is set to 100-120 degree, and light enters the scope at driver visual angle and expands further;Furthermore, by main casing
The space between space and main casing and the second reflective membrane between internal portion, main casing and the first reflective membrane
In be all filled with transparent reflective material layer, strengthen further the reflection action of solar energy spike, improve warning effect
Really.
Accompanying drawing explanation
Fig. 1 is the cross-sectional schematic of solar energy spike in this utility model one embodiment;
Fig. 2 is another cross-sectional schematic of solar energy spike in this utility model one embodiment.
Description of reference numerals: 101, main casing;102, sub-shell;103, photovoltaic electroplax;104, first
Light source;105, secondary light source;106, energy storage device;107, the first reflective membrane;108, the second reflective membrane;
109, the first light source slot;110, secondary light source groove;111, storage tank;112, the horizontal axis of storage tank
Line;113, transparent reflective material layer;A, the first reflective membrane and the second reflective membrane respectively with the angle on ground.
Detailed description of the invention
Hereinafter will schematically disclose multiple embodiment of the present utility model, as clearly stated, many real
Details in business will be explained in the following description.It should be appreciated, however, that the details in these practices is not
Application is to limit this utility model.It is to say, in some embodiments of the present utility model, these are real
Details in business is non-essential.Additionally, for simplify graphic for the sake of, some known usual structure and assemblies
To be illustrated it in the drawings in the way of simply illustrative.
About it " first ", " second " etc. used herein, censure order or the meaning of cis-position the most especially
Thinking, be also not used to limit this utility model, it is only used to the assembly that difference describes with constructed term
Or operation.
This utility model is the design being related to a kind of solar energy spike, and this solar energy spike can be applicable at a high speed
Driver is played reflecting signal function by highway.For making more in understanding, two embodiments below will be divided into
The structure further illustrating solar energy spike and the benefit brought thereof.
Embodiment one
Fig. 1 is the cross-sectional schematic of solar energy spike in the present embodiment.As it is shown in figure 1, solar energy spike bag
Include: shell body and luminescence component.Wherein, shell body is made up of the strong compression-resistant material of printing opacity, such as surpassing of import
Strong PC material, it has been internally formed a receiving cavity, and receiving cavity is divided at least two part, including:
One for accommodating the storage tank 111 and of energy storage device 106 for installing the first light source of the first light source 104
Groove 109, wherein, the sectional plane of storage tank 111 is the most preferably rectangular, and the first light source slot 109 sets
In storage tank 111 wherein side, it is preferably located at storage tank 111 wherein side and near storage tank 111
Top.Luminescence component includes: photovoltaic electroplax the 103, first light source the 104, first reflective membrane 107 and
Energy storage device 106;The top of storage tank 111 is located at by photovoltaic electroplax 103, for absorbing too through shell body
Sunlight, converts light energy into electric energy;First light source 104 is located in the first light source slot 109, for by energy storage
The electric energy that device 106 stores is converted into luminous energy, wherein it is preferred to, the first light source 104 is φ 5LED lamp
Pearl;First reflective membrane 107 is located at the opposite side of storage tank 111, and the first reflective membrane 107 is for by the first light
The light of source 104 injection carries out non-uniform reflection, and the light after reflection penetrates through shell body;Energy storage device
106 bottoms being located at storage tank 111, are used for the electrical power storage converted by photovoltaic electroplax 103, with
For the first light source 104 when night or weather discomfort greasy weather gas like rain, wherein, energy storage device 106 is permissible
Lithium ion battery such as it is polymerized for rechargeable battery, can be with repeated charge and pollution-free, or energy storage device
106 can be charging capacitor;Photovoltaic electroplax 103 electrically connects with energy storage device 106;First light source 104 with
Energy storage device 106 electrically connects;First reflective membrane 107 is 100~120 degree with the included angle A on ground, wherein,
First reflective membrane 107 is preferably 100~110 degree with the included angle A on ground.
First reflective membrane 107 is set to 100-120 degree, the light that the first light source 104 sends with the included angle A on ground
Line, after the first reflective membrane 107 reflection, is the design of an angle of 90 degrees relative to reflective membrane and ground, reflects light
Range of exposures is wider, increases the light through shell body and enters the scope at driver visual angle, the most right
Driver plays warning function.
Another embodiment of the present utility model, in above-mentioned solar energy spike, receiving cavity also includes: second
Light source slot 110, secondary light source groove 110 and the first reflective membrane 107 are positioned at the homonymy of storage tank 111;Luminous
Assembly also includes: secondary light source 105 and the second reflective membrane 108;Secondary light source 105 is located at secondary light source
In groove 110, and electrically connect with energy storage device 106, wherein it is preferred to, secondary light source 105 is φ 5LED
Lamp bead;Energy storage device 106 provides the electric energy needed for luminescence for the first light source 104 and secondary light source 105 simultaneously;
Second reflective membrane 108 and the first light source slot 109 are positioned at the homonymy of storage tank 111, the second reflective membrane 108
Light for being penetrated by secondary light source 105 carries out non-uniform reflection, and the light after reflection is penetrated through shell body
Go out;Second reflective membrane 108 is 100~120 degree with the included angle A on ground, it is highly preferred that the second reflective membrane
108 is 100~110 degree with the included angle A on ground.In this embodiment, increase the second reflective membrane 108 and
Secondary light source 105, the second reflective membrane is set to 100-120 degree with the angle on ground, and it is same that reflection light strengthens
Time, the scope that reflection light enters driver visual angle through shell body expands further.Preferably, the second light
Source slot 110 and the first light source slot 109 are symmetrical about the horizontal axis 112 of storage tank 111;Second is reflective
Film 108 and the first reflective membrane 107 are symmetrical about the horizontal axis 112 of storage tank 111.Symmetrical structure sets
Meter, the light reflected through the first reflective membrane 107 and the second reflective membrane 108 is more uniform.
According to an embodiment of the present utility model, in above-mentioned solar energy spike: the first reflective membrane 107 is arranged
In secondary light source groove 110 bottom outer surface;Second reflective membrane 108 is located at the first light source slot 109 bottom outer
Face.In present embodiment, shell body includes: the main casing 101 that at least partly bassets above and being embedded in
The sub-shell 102 of below ground;Main casing 101 fastens with sub-shell 102 and forms receiving cavity, storage tank
The underface of 111 above sections of basseting being positioned at main casing 101;Or, main casing 101 and subshell
Body 102 one-body molded formation receiving cavity, it is above that storage tank 111 is then positioned at basseting of main casing 101
The underface of part.
Embodiment two
Unlike embodiment one, in the present embodiment, the structure of the solar energy spike of embodiment one is designed
Optimizing further, specifically, refer to Fig. 2, in solar energy spike, main casing 101 is internal, main casing
Sky between 101 and first space and main casing 101 and the second reflective membranes 108 between reflective membrane 107
In gap three, at least one is filled with transparent reflective material layer 113.Still further, optimum is,
In solar energy spike, main casing 101 is internal, space between main casing 101 and the first reflective membrane 107 with
And the space three between main casing 101 and the second reflective membrane 108 all fills transparent reflective material layer
113。
Solar energy spike in the present embodiment in addition to there is the beneficial effect of the solar energy spike of embodiment one,
By main casing 101, space between main casing 101 and the first reflective membrane 107 and main casing 101 and
In space three between two reflective membranes 108, at least one is filled with transparent reflective material layer 113, enters
One step strengthens the reflection action of solar energy spike, improves alarming effect.
Solar energy spike in this utility model, during embedment underground, its shell body upper surface is above the ground level permissible
For 5.5mm, 6.5mm or 11.5mm, less than traditional at least 20mm, thus driving is not substantially had assorted
Impact, meanwhile, mounting means during embedment, paste mounting means relative to traditional glue, it is not easy to
Come off in ground.
Upper described only embodiment of the present utility model, is not limited to this utility model.For
For those skilled in the art, this utility model can have various modifications and variations.All of the present utility model
Spirit and interior the made any modification, equivalent substitution and improvement etc. of principle, all should be included in this utility model
Right within.
Claims (10)
1. a solar energy spike, it is characterised in that including:
Shell body and luminescence component;
Having a receiving cavity in described shell body, described receiving cavity includes: storage tank (111),
It is located at first light source slot (109) of described storage tank (111) wherein side;
Described luminescence component includes: be located at described storage tank (111) top photovoltaic electroplax (103),
It is located at the first light source (104) in described first light source slot (109), is located at described storage tank (111)
First reflective membrane (107) of opposite side and be located at the energy storage device of described storage tank (111) bottom
(106);
Described photovoltaic electroplax (103) electrically connects with described energy storage device (106);Described first light source
(104) electrically connect with described energy storage device (106);Described first reflective membrane (107) and ground
Angle (A) is 100~120 degree.
Solar energy spike the most according to claim 1, it is characterised in that:
Described receiving cavity also includes: with the secondary light source groove (110) of described first reflective membrane (107) homonymy;
Described luminescence component also includes: be located at the secondary light source (105) in described secondary light source groove (110)
And with second reflective membrane (108) of described first light source slot (109) homonymy;Described secondary light source (105)
Electrically connect with described energy storage device (106);Described second reflective membrane (108) with the angle (A) on ground is
100~120 degree.
Solar energy spike the most according to claim 2, it is characterised in that: described secondary light source groove (110)
Symmetrical about the horizontal axis (112) of described storage tank (111) with described first light source slot (109);
Described second reflective membrane (108) and described first reflective membrane (107) are about the horizontal stroke of described storage tank (111)
Symmetrical to axis (112).
Solar energy spike the most according to claim 2, it is characterised in that: described first reflective membrane (107)
It is arranged at described secondary light source groove (110) bottom outer surface;Described second reflective membrane (108) is located at described
First light source slot (109) bottom outer surface.
5. according to the arbitrary described solar energy spike of claim 2-4, it is characterised in that:
Described shell body includes:
The main casing (101) at least partly basseting above and the sub-shell (102) being embedded in below ground;
Described main casing (101) fastens with described sub-shell (102) and forms described receiving cavity, described appearance
Put the underface that groove (111) is then positioned at the above section of basseting of described main casing (101);
Or, described main casing (101) and the described receiving cavity of described sub-shell (102) one-body molded formation,
Described storage tank (111) is then positioned at the underface of the above section of basseting of described main casing (101).
6. according to the arbitrary described solar energy spike of claim 1-4, it is characterised in that: described first reflective
Film (107) is 100~110 degree with the angle (A) on ground.
7. according to the arbitrary described solar energy spike of claim 2-4, it is characterised in that: described second reflective
Film (108) is 100~110 degree with the angle (A) on ground.
Solar energy spike the most according to claim 5, it is characterised in that: described main casing (101)
Space between main casing (101) internal, described and described first reflective membrane (107) and described main casing
In space three between body (101) and described second reflective membrane (108), at least one is filled with
Bright reflective material layer (113).
9. according to the arbitrary described solar energy spike of claim 1-4, it is characterised in that: described energy storage device
(106) it is rechargeable battery or charging capacitor.
10. according to the arbitrary described solar energy spike of claim 2-4, it is characterised in that: described first light
Source (104) and described secondary light source (105) are LED lamp bead.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620259568.XU CN205617266U (en) | 2016-03-31 | 2016-03-31 | Solar spike nail |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620259568.XU CN205617266U (en) | 2016-03-31 | 2016-03-31 | Solar spike nail |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205617266U true CN205617266U (en) | 2016-10-05 |
Family
ID=57032434
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620259568.XU Active CN205617266U (en) | 2016-03-31 | 2016-03-31 | Solar spike nail |
Country Status (1)
Country | Link |
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CN (1) | CN205617266U (en) |
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2016
- 2016-03-31 CN CN201620259568.XU patent/CN205617266U/en active Active
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GR01 | Patent grant |