CN205161254U - Paddy field daylighting of differential type water shield and rainwater guiding device - Google Patents

Abstract

The utility model discloses a paddy field daylighting of differential type water shield and rainwater guiding device has a set of dual -glass photovoltaic assembly between the horizontal beam of left -hand door font roof beam and right side door font back portion, and every dual -glass photovoltaic assembly's both ends have the levogyration pivot and the dextrorotation pivot of coaxial setting, mounting hole normal running fit on dextrorotation pivot and the right side door font roof beam horizontal beam, dextrorotation pivot and servo motor's output shaft coaxial coupling, servo motor installs on the horizontal beam of right side door font roof beam, the figure and the dual -glass photovoltaic assembly of rainwater water conservancy diversion frid equal that the both ends of rainwater water conservancy diversion frid extend to left and right door font liang chu. The utility model discloses can adjust dual -glass photovoltaic assembly's rotation angle according to the growth needs of water shield to adjust light's incident intensity is and all dual -glass photovoltaic assembly not only can link but also can be differential, the utility model discloses can also guide to water shield paddy field outside with the rainwater in the rainy day, avoid the acidizing in water shield paddy field, and then guarantee the formation of water shield biological glue matter, guarantee the quality of water shield.

Description

The paddy field daylighting of differential type water shield and rainwater diversion device

Technical field

The utility model belongs to water shield production field, relates to a kind of differential type water shield paddy field daylighting and rainwater diversion device.

Background technology

Water shield, as the Ways of Special Agricultural Products with special value, has very large demand in domestic and international market, and the production of high-quality water shield and process technology are the inevitable choices that relevant enterprise obtains the market competitiveness and abundant economy return.Research data shows that water shield there are differences in the demand of each link of growth to light, is not only incident intensity, and comprises incident light frequency.In addition, slant acidity water quality also significantly can dissolve the biological colloid of water shield, reduces product quality.Current planting conditions cannot accomplish to carry out artificial adjustment to incident intensity, also cannot effectively stop the natural rainfall (mainly rainwater) of slant acidity to the acidization of water shield water in field matter.

Utility model content

Technical problem to be solved in the utility model is the paddy field daylighting of differential type water shield and the rainwater diversion device that provide a kind of mechanization, for adjusting incident intensity as required, and natural rainfall can also be avoided the acidization of water shield water in field matter.

The technical solution of the utility model is as follows: a kind of differential type water shield paddy field daylighting and rainwater diversion device, it is characterized in that: comprise left-hand door tee beam (1) and rainwater diversion frid (5), its Central Left Gate tee beam (1) and right door tee beam (2) left and right are arranged side by side, one group of two glass photovoltaic module (3) is had from front to back side by side between the horizontal beam at these two door tee beam tops, the two ends of each pair of glass photovoltaic module have left-handed rotating shaft (3a) and the dextral shaft (3b) of coaxial setting, wherein left-handed rotating shaft (3a) is rotatably assorted with the installing hole on left-hand door tee beam (1) horizontal beam, and the termination of left-handed rotating shaft (3a) is coaxially installed with an angular encoder, described dextral shaft (3b) is rotatably assorted with the installing hole on right door tee beam (2) horizontal beam, this dextral shaft is coaxially connected with the output shaft of servomotor (4), and this servomotor is arranged on the horizontal beam of right door tee beam (2),

The number of described rainwater diversion frid (5) is equal with two glass photovoltaic module (3), and the length direction of the two glass photovoltaic module (3) in edge is arranged on the end face on front side of this pair of glass photovoltaic module, the two ends of this rainwater diversion frid extend to described left and right door tee beam (1,2) place; When running into rainy day, described pair of all glass photovoltaic modulies (3) can synchronous axial system, and fit with the rear end of two glass photovoltaic module (3) bottom surface below in rainwater diversion frid (5) top above on a two glass photovoltaic module (3), thus described left and right door tee beam (1,2) place that rainwater is led.

In technique scheme, a part of light can be absorbed by described pair of glass photovoltaic module (3), and converts it into electric energy, and another part light through two glass photovoltaic module (3), thus can carry out photosynthesis after being absorbed by water shield.Further, we can adjust the anglec of rotation of two glass photovoltaic module (3) according to the growth needs of water shield, thus the incident intensity of light regulating, and then be convenient to the growth of water shield.Simultaneously, the each comfortable corresponding servomotor of all two glass photovoltaic modulies (3) drives lower rotation, so just can realize differential, and the anglec of rotation of each pair of glass photovoltaic module (3) is gathered by angular encoder, the data feedback collected is to servomotor, and then realize closed-loop control, so just can according to the anglec of rotation of the different two glass photovoltaic module (3) of different light angles adjustment.Certainly, all two glass photovoltaic modulies (3) can also realize interlock, i.e. synchronous axial system.In addition, two glass photovoltaic module (3) is provided with rainwater diversion frid (5), so just can be discharged to outside water shield paddy field by rainwater when rainy, thus avoid the acidifying in water shield paddy field, and then ensure the formation of the biological colloid of water shield, ensure the quality of water shield.

Adopt above technical scheme, the utility model can according to the anglec of rotation of the two glass photovoltaic module of growth needs adjustment of water shield, thus the incident intensity of light regulating, and then be convenient to the growth of water shield, a part of light is changed into electric energy simultaneously, and all two glass photovoltaic modulies not only can link but also can be differential, thus better according to the incident intensity of the growing state light regulating of water shield; Simultaneously, rainwater can also be guided to outside water shield paddy field in the rainy day by the utility model, avoid the acidifying in water shield paddy field, and then ensure the formation of the biological colloid of water shield, ensure the quality of water shield, thus make the utility model have adjustment incident ray intensity and avoid natural rainfall to the function of water shield field water quality acidification.

In the present case, described pair of glass photovoltaic module (3) is 10-20.

As preferably, the light transmittance of described pair of glass photovoltaic module (3) is 30%-70%, so just can take into account printing opacity requirement, and solar photovoltaic assembly both can have been allowed can to transform abundant solar energy, and water shield can be allowed again to absorb abundant sunlight.

Beneficial effect: the utility model can according to the anglec of rotation of the two glass photovoltaic module of growth needs adjustment of water shield, thus the incident intensity of light regulating, and then be convenient to the growth of water shield, a part of light is changed into electric energy simultaneously, and all two glass photovoltaic modulies not only can link but also can be differential, thus better according to the incident intensity of the growing state light regulating of water shield; Simultaneously, rainwater can also be guided to outside water shield paddy field in the rainy day by the utility model, avoid the acidifying in water shield paddy field, and then ensure the formation of the biological colloid of water shield, ensure the quality of water shield, thus make the utility model have adjustment incident ray intensity and avoid natural rainfall to the function of water shield field water quality acidification.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the scheme of installation of two glass photovoltaic module and left-hand door tee beam.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As shown in Figure 1, 2, a kind of differential type water shield paddy field daylighting and rainwater diversion device, formed primarily of left-hand door tee beam 1, right door tee beam 2, two glass photovoltaic module 3, servomotor 4 and rainwater diversion frid 5.Wherein, left-hand door tee beam 1 and right door tee beam about 2 are arranged side by side, during installation, left-hand door tee beam 1 and right door tee beam 2 are all located on the ridge in water shield paddy field, two glass photovoltaic modulies 3 of one group of outsourcing are had from front to back side by side between the horizontal beam at these two door tee beam tops, these pair of glass photovoltaic module 3 is positioned at directly over water shield paddy field, to shelter from the water shield in water shield paddy field.Two glass photovoltaic module 3 is 10-20, and can be preferably 13,15,17, and the light transmittance of two glass photovoltaic module 3 is 30%-70%, and the width of two glass photovoltaic module 3 wants the >=width in water shield paddy field, to cover water shield paddy field completely.

The two ends of each pair of glass photovoltaic module 3 have left-handed rotating shaft 3a and the dextral shaft 3b of coaxial setting, installing hole wherein on left-handed rotating shaft 3a and left-hand door tee beam 1 horizontal beam is rotatably assorted, and the termination of left-handed rotating shaft 3a is coaxially installed with an angular encoder (not shown in FIG.).Installing hole on dextral shaft 3b and right door tee beam 2 horizontal beam is rotatably assorted, and this dextral shaft 3b is coaxially connected with the output shaft of servomotor 4, and this servomotor 4 is arranged on the horizontal beam of right door tee beam 2.Adopt above structure, all servomotors 4 can be allowed to work, drive all two glass photovoltaic module 3 synchronous axial system, namely realize interlock.Meanwhile, different servomotors 4 also can be allowed to work, thus realize the differential of all pairs of glass photovoltaic modulies 3.

As shown in Figure 1, 2, the number of rainwater diversion frid 5 is equal with two glass photovoltaic module 3, and the length direction of the two glass photovoltaic module 3 in edge is arranged on the end face on front side of this pair of glass photovoltaic module, the two ends of this rainwater diversion frid 5 extend to left-hand door tee beam 1 and right door tee beam 2 place.Rainwater diversion frid 5 is stripe board, and the cross section of this rainwater diversion frid 5 is circular arc, and the central angle corresponding to this circular arc is acute angle, and its arc withstands on below.When running into rainy day, all two glass photovoltaic modulies 3 can synchronous axial system, and fit with the rear end of two glass photovoltaic module 3 bottom surface below in rainwater diversion frid 5 top above on a two glass photovoltaic module 3, thus rainwater is led left-hand door tee beam 1 and right door tee beam 2 place, inside the water shield paddy field that rainwater so just can be allowed to fall immediately below two glass photovoltaic module 3, thus avoid the acidifying in water shield paddy field.

The foregoing is only preferred embodiment of the present utility model; it is not restriction with the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (3)

1. a differential type water shield paddy field daylighting and rainwater diversion device, it is characterized in that: comprise left-hand door tee beam (1) and rainwater diversion frid (5), its Central Left Gate tee beam (1) and right door tee beam (2) left and right are arranged side by side, one group of two glass photovoltaic module (3) is had from front to back side by side between the horizontal beam at these two door tee beam tops, the two ends of each pair of glass photovoltaic module have left-handed rotating shaft (3a) and the dextral shaft (3b) of coaxial setting, wherein left-handed rotating shaft (3a) is rotatably assorted with the installing hole on left-hand door tee beam (1) horizontal beam, and the termination of left-handed rotating shaft (3a) is coaxially installed with an angular encoder, described dextral shaft (3b) is rotatably assorted with the installing hole on right door tee beam (2) horizontal beam, this dextral shaft is coaxially connected with the output shaft of servomotor (4), and this servomotor is arranged on the horizontal beam of right door tee beam (2),

The number of described rainwater diversion frid (5) is equal with two glass photovoltaic module (3), and the length direction of the two glass photovoltaic module (3) in edge is arranged on the end face on front side of this pair of glass photovoltaic module, the two ends of this rainwater diversion frid extend to described left and right door tee beam (1,2) place; When running into rainy day, described pair of all glass photovoltaic modulies (3) can synchronous axial system, and fit with the rear end of two glass photovoltaic module (3) bottom surface below in rainwater diversion frid (5) top above on a two glass photovoltaic module (3), thus described left and right door tee beam (1,2) place that rainwater is led.

2. differential type water shield paddy field daylighting according to claim 1 and rainwater diversion device, is characterized in that: described pair of glass photovoltaic module (3) is 10-20.

3. differential type water shield paddy field daylighting according to claim 1 and rainwater diversion device, is characterized in that: the light transmittance of described pair of glass photovoltaic module (3) is 30%-70%.