CN114415764A - Grape early-maturing culture system based on illumination analysis - Google Patents

Abstract

The invention discloses a grape early-maturing cultivation system based on illumination analysis, and relates to the technical field of grape early-maturing cultivation; to promote the developmental growth of grapes; including cultivating control center, cultivating module and protection increase production module, cultivate module, protection increase production module all with cultivate between the control center electric connection, cultivate the module and include illumination control monitoring module and temperature monitoring module, illumination control monitoring module utilizes and cultivates control center and carries out the analysis after gathering to altitude, climatic zone, latitude and the slope data that the area was located planting, confirms best planting place and planting slope to confirm the wind speed interval of grape planting environment. The grape cultivation control center is arranged, so that the whole process from sowing to maturing of the grapes can be monitored and controlled, the fruit drop amount of the grapes can be maximized, and the cultivation module monitors various indexes needed by the growth environment of the grapes in real time.

Description

Grape early-maturing culture system based on illumination analysis

Technical Field

The invention relates to the technical field of grape early-maturing cultivation, in particular to a grape early-maturing cultivation system based on illumination analysis.

Background

The grapes belong to the family Vitaceae, are deciduous vine plants and are one of the oldest plants in the world, the grapes are photophobic plants, the influence of the illumination duration on the growth and fruit drop rate of the grapes is large, when the illumination is insufficient, the grapes are small in fruit, the flower and fruit drop rate is low, and therefore how to control the illumination required by the growth of the grapes is an important link for ensuring the yield of the grapes.

Through retrieval, the chinese patent application No. CN201810355560.7 discloses a grape cultivation system based on illumination analysis, in which the requirements for illumination are different when grape plants are in different periods during the growth process, and in order to ensure that sufficient illumination is obtained in each period and a good planting effect is achieved, the illumination requirement analysis in different stages is required, thereby providing suggestions for the planting managers.

One of the above-mentioned patents based on illumination analysis has the following disadvantages: in the analysis process, the accurate analysis can not be carried out on various environmental parameter indexes of the planting zone, so that the maximum yield of the grapes can not be ensured.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides an early grape cultivation system based on illumination analysis.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a short early cultivation system of grape based on illumination analysis, is including cultivating control center, cultivating the module and protecting the increase production module, cultivate the module, protect the increase production module all with cultivate between the control center electric connection, it includes illumination control monitoring module and temperature monitoring module to cultivate the module, illumination control monitoring module utilizes and cultivates the control center and gathers back to altitude, climate zone, latitude and the slope data that the area was located planting, confirms best planting place and planting slope to confirm the wind speed interval of grape planting environment, combine the climate zone of planting environment, monitor the illumination intensity that grape was planted, make the grape planting in-process be in the suitable environment of illumination intensity, combine the latitude to carry out analysis and processing to the longest illumination time of grape planting in-process winter and summer solstice.

Preferably: the temperature monitoring module monitors extreme temperature of the planting zone in winter and summer respectively, so that the grapes are safely germinated in winter, and meanwhile, seed selection of the grapes and a construction mode of a grape trellis are selected.

Preferably: cultivate the module and still include moisture monitoring module and soil monitoring module, moisture monitoring module monitors the annual average precipitation and the air humidity in planting the area, carries out the policy to precipitation and air humidity and appoints to the irrigation cycle and the irrigation volume of grape, cultivates the different cycle that locates to the grape, gives corresponding moisture replenishment.

Preferred for the present invention are: the soil monitoring module monitors the salinity and alkalinity and the soil fertility of the soil in the planting area.

As a preferable aspect of the present invention: the protection and yield increase module comprises a fertilization control module and a pest control module, the fertilization control module controls the use amount and the use proportion of nitrogen, phosphorus and potassium in the grape planting process, base fertilizer is applied to grapes, the grapes are fertilized in the planting process, and germination accelerating fertilizer, pre-flowering fertilizer, fruit swelling fertilizer and hyperchromic and sugar-increasing fertilizer are applied according to different growth stages.

As a preferable aspect of the present invention: illumination control monitoring module is including greenhouse light filling control module group, and greenhouse light filling control module group carries out the greenhouse when planting at the grape, when the natural light is not enough, utilizes the light filling lamp to carry out the light filling to the greenhouse, promotes the photosynthesis of grape.

Further: the cultivation control center is electrically connected with a planting module, and the planting module selects varieties of the grapes according to planting conditions of a planting field.

As a further scheme of the invention: the cultivation control center is electrically connected with a management module, the management module analyzes data collected by the cultivation module, and early warning is carried out on grape ear thinning, grain thinning, pruning and reasonable load in different development stages.

The invention has the beneficial effects that:

1. the elevation and the planting gradient in planting the area can be combined through being provided with illumination control monitoring module to can monitor the wind speed in planting the area, guarantee the illumination intensity of sunshine to the grape simultaneously according to the gradient, thereby can confirm the best planting area, through carrying out the analysis to the latitude, thereby can carry out the analysis to planting the area in winter to and summer to the irradiant time, thereby ensure to plant the area and can provide sufficient illumination time.

2. Can monitor the temperature interval scope of planting the ground in the four seasons through being provided with the temperature monitoring module to guaranteed that the grape can carry out the development of pollination and berry smoothly at the planting in-process, can monitor the rainfall of planting the area through being provided with moisture detection module, can in time utilize irrigation equipment to irrigate the grape when the rainfall is not enough simultaneously, can figure the soil property of planting soil, soil fertility and the pH value monitor through being provided with the soil monitoring module.

3. The grape plant fertilizer can be reasonably applied at different production stages in the growth process of the grapes through the fertilizer application control module, and the fertilizer comprises a base fertilizer and an additional fertilizer, so that the normal growth of the grape plant can be effectively promoted in different production links; the pest control module utilizes the monitoring equipment to periodically monitor grape fruits, grape vines and grape leaves, corresponding pesticide spraying pipes are carried out according to specific symptoms and expression characteristics of the grapes which frequently appear when pests occur, and common downy mildew and grape anthracnose of grape planting can be controlled and eradicated through the pest control module.

4. Can carry out the big-arch shelter when cultivating at the grape through being provided with greenhouse light filling control module group, when natural light sources such as sun are not enough, can utilize the light filling lamp to carry out the light filling to can effectively guarantee the illumination time and the illumination intensity of grape.

5. Need carry out the plastic pruning to the grape through the season that the management module can be different, dredge the ear of grain and dredge a warning, turn round the tip through to grape leaf and inflorescence top at best, carry out the spraying of boric acid solution to its surface to can guarantee the fruit setting rate of grape, promote the maturation time of grape simultaneously.

Drawings

FIG. 1 is a general framework diagram of a grape early-maturing system based on illumination analysis according to the present invention;

fig. 2 is a schematic structural diagram of an illumination control monitoring module of a grape early-maturing cultivation system based on illumination analysis according to the present invention.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not to be construed as limiting the device, structure, or element to which reference is made to have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Example 1:

the utility model provides a grape promotes early cultivation system based on illumination analysis, as shown in figure 1, including cultivating the control maincenter, cultivate the module and protect the increase production module, cultivate the module, protect the increase production module all with cultivate electric connection between the control maincenter, can monitor and control grape from the seeding to the whole process that ripe experiences through being provided with the control maincenter of cultivating, thereby can make the fruit that falls of grape volume can reach the maximize, cultivate the module and monitor in real time the required each item index of the growing environment of grape, thereby can take place to investigate in the very first time when the index is unusual, the increase production module is protected and the plant diseases and insect pests of grape can be effectively prevented, can promote the improvement of the output of grape simultaneously.

The cultivation module comprises an illumination control monitoring module and a temperature monitoring module, the illumination control monitoring module utilizes a cultivation control center to collect and analyze the data of the altitude, the climate zone, the latitude and the gradient of the planting zone, so as to determine the optimal planting place and the planting gradient, so as to determine the wind speed interval of the grape planting environment, monitor the illumination intensity of the grape planting by combining the climate zone of the planting environment, ensure the grape planting process to be in an environment with proper illumination intensity, analyze and process the longest illumination time in winter solstice and summer solstice in the grape planting process by combining the latitude, monitor the wind speed of the planting zone by combining the altitude and the planting gradient of the planting zone by arranging the illumination control monitoring module, simultaneously ensure the illumination intensity of the grape according to the gradient, so as to determine the optimal planting zone, by analyzing the latitude, the illumination time of the planting zone in winter and summer can be analyzed, so that the planting zone can provide enough illumination time; the temperature monitoring module respectively monitors extreme temperatures of the planting zones in winter and summer, so that the grapes are safely germinated in winter, and meanwhile, the grape seed selection and grape trellis building modes are selected; can monitor the temperature interval scope at the four seasons to the planting ground through being provided with the temperature monitoring module to guaranteed that the grape can carry out the development of flowering pollination and berry smoothly at the planting in-process.

The cultivation module also comprises a moisture monitoring module and a soil monitoring module, the moisture monitoring module monitors the annual average rainfall and the air humidity of the planting zone, the irrigation period and the irrigation quantity of the grapes are subjected to policy designation aiming at the rainfall and the air humidity, corresponding moisture supplement is provided aiming at different periods where the grapes are cultivated, the rainfall of the planting zone can be monitored by the moisture detection module, and meanwhile, when the rainfall is insufficient, the grapes can be irrigated by an irrigation device in time; the soil monitoring module monitors the salinity and alkalinity and the soil fertility of the soil in the planting area, and the soil quality, the soil fertility and the pH value of the planting soil can be monitored by the soil monitoring module.

The protective yield-increasing module comprises a fertilization control module and a pest control module, wherein the fertilization control module controls the use amount and the use proportion of nitrogen, phosphorus and potassium in the grape planting process, applies base fertilizer to the grapes, performs topdressing on the grapes in the planting process, and applies germination accelerating fertilizer, pre-flowering fertilizer, fruit expanding fertilizer and hyperchromic and sugar increasing fertilizer according to different growth stages; the grape plant fertilizer can be reasonably applied at different production stages in the growth process of the grapes through the fertilizer application control module, and the fertilizer comprises a base fertilizer and an additional fertilizer, so that the normal growth of the grape plant can be effectively promoted in different production links; the pest control module utilizes the monitoring equipment to periodically monitor grape fruits, grape vines and grape leaves, corresponding pesticide spraying pipes are carried out according to specific symptoms and expression characteristics of the grapes which frequently appear when pests occur, and common downy mildew and grape anthracnose of grape planting can be controlled and eradicated through the pest control module.

This implementation has realized like illumination to required each item index of grape in planting process through cultivating the module, required temperature, moisture and soil salinity and alkalinity monitor, wherein illumination control monitoring module can carry out the real-time ground monitoring to the illumination time and the illumination intensity of grape in planting process, temperature monitoring module can monitor the temperature interval that grape growing environment is in simultaneously, thereby avoid the grape to appear because the temperature is too low or too high can't carry out normal production, moisture monitoring module can monitor the rainfall and the air humidity in planting the area, thereby can in time carry out the moisturizing irrigation to the grape when the arid, soil monitoring module monitors planting soil salt alkalinity and the fertility of soil, thereby can guarantee the required nutritive material of grape in growth process with fertilization control module group in coordination.

Example 2:

the utility model provides a grape promotes early cultivation system based on illumination analysis, as shown in FIG. 2, illumination control monitoring module is including greenhouse light filling control module group, and when greenhouse light filling control module group carried out the big-arch shelter at the grape and plants, when natural light is not enough, utilizes the light filling lamp to carry out the light filling to the big-arch shelter, promotes the photosynthesis of grape, can carry out the big-arch shelter when cultivating at the grape through being provided with greenhouse light filling control module group, when natural light sources such as sun are not enough, can utilize the light filling lamp to carry out the light filling to can effectively guarantee the illumination time and the illumination intensity of grape.

Example 3:

the utility model provides a grape promotes early cultivation system based on illumination analysis, as shown in figure 1, including cultivating the control maincenter, cultivate the module and protect the increase production module, cultivate the module, protect the increase production module all with cultivate electric connection between the control maincenter, can monitor and control grape from the seeding to the whole process that ripe experiences through being provided with the control maincenter of cultivating, thereby can make the fruit that falls of grape volume can reach the maximize, cultivate the module and monitor in real time the required each item index of the growing environment of grape, thereby can take place to investigate in the very first time when the index is unusual, the increase production module is protected and the plant diseases and insect pests of grape can be effectively prevented, can promote the improvement of the output of grape simultaneously.

The cultivation control center is electrically connected with a planting module, and the planting module selects grape varieties according to planting conditions of a planting field; the most suitable grape variety can be selected according to the planting environment of the planting field by arranging the planting module.

The cultivation control center is electrically connected with a management module, and the management module analyzes data collected by the cultivation module and performs early warning on the ear thinning, the grain thinning, the pruning and the reasonable load of the grapes at different development stages; need carry out the plastic pruning to the grape through the season that the management module can be different, dredge the ear of grain and dredge a warning, turn round the tip through turning round grape leaf and inflorescence top, carry out the spraying of boric acid solution to its surface to can guarantee the fruit setting rate of grape, promote the maturation time of grape simultaneously.

The above description is for the purpose of illustrating the preferred embodiments of the present invention and is not intended to be exhaustive or to limit the invention to the precise embodiments disclosed, and all modifications, equivalents, and improvements that may occur to those skilled in the art and that fall within the spirit and scope of the invention are intended to be embraced therein.

Claims (8)

1. A grape early-promoting cultivation system based on illumination analysis comprises a cultivation control center, a cultivation module and a protection and yield-increasing module, it is characterized in that the cultivation module and the protection yield-increasing module are electrically connected with the cultivation control center, the cultivation module comprises an illumination control monitoring module and a temperature monitoring module, the illumination control monitoring module collects and analyzes the data of the altitude, the climate zone, the latitude and the gradient of the planting zone by using the cultivation control center to determine the optimal planting place and the planting gradient, thereby determining the wind speed interval of the grape planting environment, combining the climate zone of the planting environment, the method comprises the steps of monitoring the illumination intensity of grape planting to enable the grape planting process to be in an environment with proper illumination intensity, and analyzing and processing the longest illumination time in winter solstice and summer solstice in the grape planting process by combining latitude.

2. The illumination analysis-based grape early-maturing cultivation system according to claim 1, wherein the temperature monitoring module monitors extreme temperatures of a planting zone in winter and summer respectively, so that grapes are safely germinated in winter, and grape seed selection and grape trellis construction are selected at the same time.

3. The illumination analysis based grape early-maturing cultivation system according to claim 2, wherein the cultivation module further comprises a moisture monitoring module and a soil monitoring module, the moisture monitoring module monitors the annual average precipitation and the air humidity of the planting area, the irrigation period and the irrigation amount of the grapes are subjected to policy specification according to the precipitation and the air humidity, and corresponding moisture supplement is given according to different periods where the grapes are cultivated.

4. The system of claim 3, wherein the soil monitoring module monitors the salinity and the fertility of the soil in the planting area.

5. The grape early-maturing cultivation system based on illumination analysis as claimed in claim 4, wherein the protection and yield increase module comprises a fertilization control module and a pest control module, the fertilization control module controls the use amount and the use proportion of nitrogen, phosphorus and potassium in a grape planting process, base fertilizer is applied to grapes, top dressing is performed on the grapes in the planting process, and germination accelerating fertilizer, pre-flowering fertilizer, fruit swelling fertilizer and color and sugar increasing fertilizer are applied according to different growth stages.

6. The system as claimed in claim 5, wherein the illumination control and monitoring module comprises a light supplementing greenhouse module, and when the grapes are planted in the greenhouse and natural light is insufficient, the light supplementing lamp is used for supplementing light to the greenhouse to promote photosynthesis of the grapes.

7. The system as claimed in claim 6, wherein the cultivation control hub is electrically connected to a planting module, and the planting module selects grape varieties according to planting conditions of a planting area.

8. The illumination analysis-based grape early-maturing cultivation system according to claim 7, wherein the cultivation control center is electrically connected with a management module, the management module analyzes data collected by the cultivation module, and early warning is given to grape ear thinning, grain thinning, pruning and reasonable load early warning in different development stages.

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