CN209250579U - A kind of solar cell incident angle-dependent testboard - Google Patents

Abstract

The utility model discloses a kind of solar cell incident angle-dependent testboards, including platform body, platform body upper surface middle position is connected with round block vertically, the even angle ring of round block front end face is provided with fixing groove around distribution, round block front end face middle position is provided with loose slot, L shape shaft is provided on front side of the round block, L shape shaft is divided into trunnion axis and vertical axes and the trunnion axis of L shape shaft inserts in loose slot, the vertical axes end point of the L shape shaft is connected with folder frame, be crossed with right above the round block circular arch sliding rail and circular arch sliding rail both ends it is affixed platform body, card is placed with electric hoist in the circular arch sliding rail.Affixed elevator starting on the left of the utility model platform body upper surface, simulation lamp and fixed solar cell are covered with the hood decline above moving platform, extraneous light is avoided to influence test result, then the electric hoist opened on simulation lamp and circular arch sliding rail carries out simulation test, has the advantages that structure is simple, easy to use, using effect is good.

Description

A kind of solar cell incident angle-dependent testboard

Technical field

The utility model relates to technical field of solar batteries, specially a kind of solar cell incident angle-dependent test Platform.

Background technique

Solar battery is the device for directly luminous energy being converted to by photoelectric effect or photochemical effect electric energy.As long as It is arrived by illumination, moment can output voltage and electric current.Physically it is being known as photovoltaic (light, electric power are abbreviated as PV), Abbreviation photovoltaic, using the thin-film type solar cell of photoelectric effect work as mainstream, and the wet type sun to be worked with photochemical effect Can battery then also in the budding stage, be typically mounted at outdoor solar battery luminous energy conversion ratio and installation towards angle And Intensity of the sunlight is related, and install be mainly towards angle illumination incidence angle, this just needs to carry out prior survey Examination, general test platform are disadvantageous in that: when carrying out incidence angle illumination test, since extraneous light is not hidden Gear, influence the conversion of solar energy of solar battery, test result caused to have error, be unable to get accurately angle as a result, and General test platform simulation light source be it is fixed, only solar cell carry out angular adjustment, will lead to test result in this way Accuracy is not high.

Utility model content

The purpose of this utility model is to provide a kind of solar cell incident angle-dependent testboards, to solve above-mentioned background The problem of being proposed in technology.

To achieve the above object, the utility model provides the following technical solutions: a kind of solar cell incident angle-dependent survey Test stand, including platform body, platform body upper surface middle position are connected with round block, the even angle ring of round block front end face vertically Distribution is provided with fixing groove, round block front end face middle position is provided with loose slot, and L shape is provided on front side of the round block and is turned Axis, L shape shaft is divided into trunnion axis and vertical axes and the trunnion axis of L shape shaft inserts in loose slot, the L shape shaft it is vertical Be connected with folder frame at shaft end head, be crossed with right above the round block circular arch sliding rail and circular arch sliding rail both ends it is affixed platform body, institute It states card in circular arch sliding rail and is placed with electric hoist, be connected with support rod at left and right sides of the circular arch sliding rail vertically, on the support rod Be socketed with sliding sleeve, be covered with right above the circular arch sliding rail hood and hood two sides it is affixed sliding sleeve, the platform body lower end Face is connected with supporting table.

Preferably, fixture block is connected on the trunnion axis side wall of the L shape shaft.

Preferably, fixing bolt has been crossed in folder frame right side wall front and back end.

Preferably, fitting is connected with rubber pad in the inner left wall of the folder frame.

Preferably, simulation lamp is connected on the electric hoist.

Preferably, be connected on the left of the platform body upper surface elevator and elevator lift component it is affixed sliding sleeve.

Preferably, the platform body upper surface be provided with annular docking groove and annular docking groove be in hood just under Side.

Compared with prior art, the utility model has the beneficial effects that

1, the L shape inserted in the affixed round block front end face loose slot in the utility model platform body upper surface middle position turns Affixed folder frame puts solar panel for blocking on axis, is then fixed by the fixing bolt being arranged on the right side of folder frame, and lead to Cross the incidence angle for the simulation lamp wiring irradiation that the rotation of L shape shaft is adjusted on the circular arch sliding rail being arranged right above solar cell and round block It is tested, the angle of adjusting is by sliding L shape shaft into loose slot, so that fixture block is caught in the fixing groove on round block, from And it fixes；

2, elevator affixed on the left of the utility model platform body upper surface starting, with the hood decline above moving platform Simulation lamp and fixed solar cell are covered, extraneous light is avoided to influence test result, then opens simulation lamp and circular arch sliding rail On electric hoist carry out simulation test, and platform body upper surface is provided with annular docking groove and annular docking groove is in hood Underface, dock insertion convenient for the lower edge of hood, enhance the leakproofness of hood, have that structure is simple, user Just, the good advantage of using effect.

Detailed description of the invention

Fig. 1 is a kind of solar cell incident angle-dependent testboard overall structure diagram of the utility model；

Fig. 2 is a kind of solar cell incident angle-dependent testboard top view of the utility model；

Fig. 3 is the connection knot of L shape shaft and round block in a kind of solar cell incident angle-dependent testboard of the utility model Composition.

In figure: 1- platform body；2- round block；3- fixing groove；4-L shape shaft；5- fixing bolt；6- presss from both sides frame；7- rubber pad； 8- circular arch sliding rail；9- electric hoist；10- simulates lamp；11- elevator；12- support rod；13- sliding sleeve；14- annular docking groove；15- Supporting table；16- fixture block；17- loose slot；18- hood.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of solar cell incident angle-dependent test Platform, including platform body 1, the 1 upper surface middle position of platform body are connected with round block 2, the even angle of 2 front end face of round block vertically Distribution is provided with fixing groove 3, the 2 front end face middle position of round block is provided with loose slot 17, is arranged on front side of the round block 2 There is L shape shaft 4, L shape shaft 4 divides the trunnion axis for trunnion axis and vertical axes and L shape shaft 4 to insert in loose slot 17, the L The vertical axes end point of shape shaft 4 is connected with folder frame 6, is crossed with circular arch sliding rail 8 and 8 liang of circular arch sliding rail right above the round block 2 Affixed platform body 1 is held, card is placed with electric hoist 9 in the circular arch sliding rail 8, and 8 left and right sides of circular arch sliding rail is vertical affixed There is support rod 12, sliding sleeve 13 is socketed on the support rod 12, is covered with hood 18 and hood right above the circular arch sliding rail 8 18 two sides it is affixed sliding sleeve 13,1 lower end surface of platform body be connected with supporting table 15.

It is connected with fixture block 16 on the trunnion axis side wall of the L shape shaft 4, by sliding L shape shaft 4 into loose slot 17, So that fixture block 16 is caught in the fixing groove 3 on round block 2, to fix L shape shaft 4；It crosses the 6 right side wall front and back end of folder frame There is fixing bolt 5, fixing bolt 5 is used to compress the solar panel that card is placed in folder frame 6；In the inner left wall of the folder frame 6 Fitting is connected with rubber pad 7, and rubber pad 7 is used to increase the frictional force of folder 6 inner sidewall of frame, convenient for the solar cell board of placement Tightly；Simulation lamp 10 is connected on the electric hoist 9, simulation lamp 10 is used for the simulated solar energy, as electric hoist 9 is along circle Cascade rail 8 is mobile, and solar panel is then adjusted to different angle, carries out the test of energy collection, so that it is determined that different The effect of incidence angle；Be connected on the left of 1 upper surface of platform body elevator 11 and elevator 11 lift component it is affixed it is sliding Set 13, elevator 11 are used to drive hood 18 to move up and down by sliding sleeve 13；It is right that 1 upper surface of platform body is provided with annular Access slot 14 and annular docking groove 14 are in the underface of hood 18, and annular docking groove 14 is convenient for the lower edge pair of hood 18 It patches into the leakproofness of enhancing hood 18.

Working principle: affixed 2 front end face loose slot of round block, 17 interpolation in the 1 upper surface middle position of utility model platform body Affixed folder frame 6 puts solar panel for blocking in the L shape shaft 4 put, then the fixing bolt 5 by being arranged on the right side of folder frame 6 It fixes, and adjusts the simulation on the circular arch sliding rail 8 being arranged right above solar cell and round block 2 by the rotation of L shape shaft 4 The incidence angle of 10 light of lamp irradiation is tested, when the end of L shape shaft 4 is not fully inserted in loose slot 17, so that L shape Shaft 4 is rotated in loose slot 17, and the solar panel rotation on folder frame 6 is driven to adjust angle position, after determining position, L shape shaft 4 is pushed into loose slot 17, then L shape shaft 4 is just inserted into the fixing groove 3 of corresponding position with fixture block 16, so that L Shape shaft 4 and folder frame 6 and solar cell position are fixed, and then start the elevator 11 in 1 left side of platform body, on moving platform 1 The hood 18 of side, which declines, covers simulation lamp 10 and fixed solar cell, avoids extraneous light from influencing test result, then beats The electric hoist 9 being opened on quasi- lamp 10 and circular arch sliding rail 8 carries out simulation test, and 1 upper surface of platform body is provided with annular docking Slot 14 and annular docking groove 14 are in the underface of hood 18, dock insertion convenient for the lower edge of hood 18, enhancing hides The leakproofness of light shield 18.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (7)

1. a kind of solar cell incident angle-dependent testboard, including platform body (1), it is characterised in that: on the platform body (1) End face middle position is connected with round block (2) vertically, and the even angle ring of round block (2) front end face is provided with fixing groove (3) around distribution, Round block (2) the front end face middle position is provided with loose slot (17), is provided with L shape shaft (4), L shape on front side of the round block (2) Shaft (4) is divided into trunnion axis and vertical axes and the trunnion axis of L shape shaft (4) inserts in loose slot (17), the L shape shaft (4) vertical axes end point is connected with folder frame (6), is crossed with circular arch sliding rail (8) and circular arch sliding rail right above the round block (2) (8) both ends it is affixed platform body (1), card is placed with electric hoist (9) in the circular arch sliding rail (8), circular arch sliding rail (8) left and right Two sides are connected with support rod (12) vertically, are socketed with sliding sleeve (13) on the support rod (12), right above the circular arch sliding rail (8) Be covered with hood (18) and hood (18) two sides it is affixed sliding sleeve (13), platform body (1) lower end surface be connected with supporting table (15)。

2. a kind of solar cell incident angle-dependent testboard according to claim 1, it is characterised in that: the L shape turns Fixture block (16) are connected on the trunnion axis side wall of axis (4).

3. a kind of solar cell incident angle-dependent testboard according to claim 1, it is characterised in that: the folder frame (6) fixing bolt (5) have been crossed in right side wall front and back end.

4. a kind of solar cell incident angle-dependent testboard according to claim 1, it is characterised in that: the folder frame (6) fitting is connected with rubber pad (7) in inner left wall.

5. a kind of solar cell incident angle-dependent testboard according to claim 1, it is characterised in that: the electric sliding Simulation lamp (10) is connected on vehicle (9).

6. a kind of solar cell incident angle-dependent testboard according to claim 1, it is characterised in that: the platform body (1) be connected on the left of upper surface elevator (11) and elevator (11) lift component it is affixed sliding sleeve (13).

7. a kind of solar cell incident angle-dependent testboard according to claim 1, it is characterised in that: the platform body (1) upper surface is provided with annular docking groove (14) and annular docking groove (14) is in the underface of hood (18).