CN112690179A - Greenhouse watermelon planting process - Google Patents

Abstract

The invention discloses a greenhouse watermelon planting process, which comprises the following steps: A. building a garden: selecting a region with soft soil, convenient irrigation and drainage, high terrain and sufficient sunlight irradiation to construct a greenhouse, and cleaning weeds and rotten leaves in the greenhouse; B. and (3) reclamation: and (3) arranging a plurality of ridge pits in the greenhouse by using a ditcher, spraying base fertilizer in the plurality of ridge pits, and naturally drying the base fertilizer in the ridge pits. The process for planting the watermelons in the greenhouse has the advantages that the temperature sensor, the heating lamp tube and the ventilating fan are used, so that people can monitor the temperature in the greenhouse in real time, the temperature in the greenhouse can be always at the optimal temperature for growth of the watermelons, the growth of the watermelons is accelerated, the ripening period is shortened, the growth of the watermelons is accelerated by the fertilizer spraying mode, the ripening period is shortened, the watermelons can form developed root systems in the seedling stage by the watering mode, sufficient water supply can be guaranteed after fruit setting, fruit expansion is facilitated, and the weight of fruits is increased.

Description

Greenhouse watermelon planting process

Technical Field

The invention relates to a watermelon planting process, in particular to a greenhouse watermelon planting process.

Background

The watermelon has thick and strong stems and branches, obvious edges, thick tendrils, short and soft hairs, thick leaf stalks, dense soft hairs, leaf paper, triangular oval shape in outline, white and green color, short hairs on two sides, heart shape at the base parts of the leaves, hermaphrodite plants, female and male flowers, most seeds, oval shape, black and red colors, smooth two sides, blunt and round base parts, usually slightly arched edges and summer flower and fruit period.

At present, many fruit farmers select to plant watermelons, but the existing watermelon planting process still has the following problems: 1. the watermelon has long maturing period; 2. the weight of the fruit is low. Therefore, the improvement is made, and a greenhouse watermelon planting process is provided.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a greenhouse watermelon planting process.

In order to solve the technical problems, the invention provides the following technical scheme:

the invention relates to a greenhouse watermelon planting process, which comprises the following steps:

A. building a garden: selecting a region with soft soil, convenient irrigation and drainage, high terrain and sufficient sunlight irradiation to construct a greenhouse, and cleaning weeds and rotten leaves in the greenhouse;

B. and (3) reclamation: a ditcher is used for arranging a plurality of ridge pits in the greenhouse, base fertilizer is sprayed in the ridge pits, and the base fertilizer is naturally dried in the ridge pits;

C. land preparation: breaking soil blocks in the ridge pits by using a shovel to keep the soil soft, piling up ridges on two sides of the ridge pits, and paving a film in the ridge pits;

D. planting: one day before sowing, watering the soil, digging a plurality of seed pits in the ridge pits, wherein the diameter of each seed pit is 5cm, putting the cultivated seeds into the seed pits, and controlling the number of the seeds put into the seed pits to be 5-8 grains;

E. pruning and pressing vines: pressing vines grown from young melons, wherein the vines are trimmed in a three-vine trimming mode in sunny days and cannot be trimmed in cloudy days to prevent infection diseases, when the vines grow to be about 50cm, pressing the vines with soil at intervals of 3-5 sections once, and pressing each vine for 2-3 times;

F. fertilizing: dissolving the expanding melon fertilizer in irrigation water, and controlling the mixing ratio to be 1: 50, after mixing, spraying the mixture in soil for fertilization;

G. watering: the method comprises the following steps of (1) irrigating young melons regularly, wherein the young melons are not watered when no dead leaves appear in the seedlings in a seedling stage, and the watering times are controlled in a flowering stage of the young melons for 5 days/each time and after fruit setting for 3 days/each time;

H. harvesting: before the watermelon is harvested, the watermelon is irrigated once by using liquid dung, after three days, the watermelon is irrigated once by using clear water, and after one day, the ripe watermelon is harvested.

In the step a, a temperature sensor, a heating lamp tube and a ventilation fan are installed in the greenhouse, the temperature sensor, the heating lamp tube and the ventilation fan are electrically connected with an external PLC (programmable logic controller), and the temperature in the greenhouse is controlled to be 25-28 ℃.

As a preferable technical scheme of the invention, in the step B, the depth of the ridge pits is controlled to be 28cm-30cm, the input amount of the base fertilizer is 3000 jin per mu, and the natural air drying time of the base fertilizer is 7-9 days.

As a preferable technical scheme of the invention, in the step C, the height of the ridge is controlled to be dead by smashing by 15-17 cm, the film is optimally a plastic film, and the thickness of the film is 0.3 mm.

As a preferable technical scheme of the invention, in the step D, the distance between adjacent seed pits is controlled to be 50cm-70cm, and the watering quantity is controlled to be 500L per mu.

In a preferred technical scheme of the invention, in the step E, the spraying amount of the fertilizer is controlled to be 500L per mu, and the fertilizing time is 3 times per month.

As a preferable technical scheme of the invention, in the step F, the watering amount is controlled to be 300L per mu in the flowering period, and the watering amount is controlled to be 600L per mu after fruit setting.

The invention has the beneficial effects that: the process for planting the watermelons in the greenhouse has the advantages that the temperature sensor, the heating lamp tube and the ventilating fan are used, so that people can monitor the temperature in the greenhouse in real time, the temperature in the greenhouse can be always at the optimal temperature for growth of the watermelons, the growth of the watermelons is accelerated, the ripening period is shortened, the growth of the watermelons is accelerated by the fertilizer spraying mode, the ripening period is shortened, the watermelons can form developed root systems in the seedling stage by the watering mode, sufficient water supply can be guaranteed after fruit setting, fruit expansion is facilitated, and the weight of fruits is increased.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of a greenhouse watermelon planting process of the present invention;

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1: as shown in figure 1, the process for planting greenhouse watermelons, disclosed by the invention, comprises the following steps of:

A. building a garden: selecting a region with soft soil, convenient irrigation and drainage, high terrain and sufficient sunlight irradiation to construct a greenhouse, and cleaning weeds and rotten leaves in the greenhouse;

B. and (3) reclamation: a ditcher is used for arranging a plurality of ridge pits in the greenhouse, base fertilizer is sprayed in the ridge pits, and the base fertilizer is naturally dried in the ridge pits;

C. land preparation: breaking soil blocks in the ridge pits by using a shovel to keep the soil soft, piling up ridges on two sides of the ridge pits, and paving a film in the ridge pits;

D. planting: one day before sowing, watering the soil, digging a plurality of seed pits in the ridge pits, wherein the diameter of each seed pit is 5cm, putting the cultivated seeds into the seed pits, and controlling the number of the seeds put into the seed pits to be 5 grains;

E. pruning and pressing vines: pressing vines grown from young melons, wherein the vines are trimmed in a three-vine trimming mode in sunny days and cannot be trimmed in cloudy days to prevent infection diseases, when the vines grow to be about 50cm, pressing the vines with soil once at intervals of 3 sections, and pressing each vine for 2 times;

F. fertilizing: dissolving the expanding melon fertilizer in irrigation water, and controlling the mixing ratio to be 1: 50, after mixing, spraying the mixture in soil for fertilization;

G. watering: the method comprises the following steps of (1) irrigating young melons regularly, wherein the young melons are not watered when no dead leaves appear in the seedlings in a seedling stage, and the watering times are controlled in a flowering stage of the young melons for 5 days/each time and after fruit setting for 3 days/each time;

H. harvesting: before the watermelon is harvested, the watermelon is irrigated once by using liquid dung, after three days, the watermelon is irrigated once by using clear water, and after one day, the ripe watermelon is harvested.

In the step A, a temperature sensor, a heating lamp tube and a ventilation fan are installed in the greenhouse, the temperature sensor, the heating lamp tube and the ventilation fan are electrically connected with an external PLC, the temperature in the greenhouse is controlled to be 25 ℃, and through the temperature sensor, the heating lamp tube and the ventilation fan, people can monitor the temperature in the greenhouse in real time, so that the temperature in the greenhouse can be always at the optimal temperature for watermelon growth, the growth of the watermelon is accelerated, and the watermelon maturation period is shortened.

In the step B, the depth of the ridge pits is controlled to be 28cm, the input amount of the base fertilizer is 3000 jin per mu, and the natural air drying time of the base fertilizer is 7 days, so that nutrients can be fully infiltrated into the soil, and the watermelon can grow well.

In the step C, the height of the furrows is controlled to be dead by 15cm, the film is the best plastic film, the thickness of the film is 0.3mm, and the plastic film can ensure that the humidity of the soil can also play a role in heat preservation.

And D, controlling the distance between the adjacent seed pits to be 50cm, controlling the watering amount to be 500L per mu, fully wetting the soil, permeating water, controlling the distance between the adjacent seed pits to be 50cm-70cm, and reasonably arranging to ensure that the watermelon has enough growth space.

And E, controlling the spraying amount of the fertilizer to be 500L per mu, and controlling the fertilizing time to be 3 times per month, wherein the growth of the watermelon is accelerated and the mature period is shortened by the fertilizer spraying mode.

And F, controlling the watering amount to be 300L per mu in the flowering period, controlling the watering amount to be 600L per mu after fruit setting, enabling watermelons to form developed root systems in the seedling period through the watering mode, ensuring sufficient water supply after fruit setting, and being beneficial to fruit expansion and fruit weight increase.

Example 2: as shown in figure 1, the process for planting greenhouse watermelons, disclosed by the invention, comprises the following steps of:

A. building a garden: selecting a region with soft soil, convenient irrigation and drainage, high terrain and sufficient sunlight irradiation to construct a greenhouse, and cleaning weeds and rotten leaves in the greenhouse;

B. and (3) reclamation: a ditcher is used for arranging a plurality of ridge pits in the greenhouse, base fertilizer is sprayed in the ridge pits, and the base fertilizer is naturally dried in the ridge pits;

C. land preparation: breaking soil blocks in the ridge pits by using a shovel to keep the soil soft, piling up ridges on two sides of the ridge pits, and paving a film in the ridge pits;

D. planting: one day before sowing, watering the soil, digging a plurality of seed pits in the ridge pits, wherein the diameter of each seed pit is 5cm, putting the cultivated seeds into the seed pits, and controlling the number of the seeds put into the seed pits to be 7;

E. pruning and pressing vines: pressing vines grown from young melons, wherein the vines are trimmed in a three-vine trimming mode in sunny days and cannot be trimmed in cloudy days to prevent infection diseases, when the vines grow to be about 50cm, pressing the vines with soil once at intervals of 4 sections, and pressing each vine for 2 times;

F. fertilizing: dissolving the expanding melon fertilizer in irrigation water, and controlling the mixing ratio to be 1: 50, after mixing, spraying the mixture in soil for fertilization;

G. watering: the method comprises the following steps of (1) irrigating young melons regularly, wherein the young melons are not watered when no dead leaves appear in the seedlings in a seedling stage, and the watering times are controlled in a flowering stage of the young melons for 5 days/each time and after fruit setting for 3 days/each time;

H. harvesting: before the watermelon is harvested, the watermelon is irrigated once by using liquid dung, after three days, the watermelon is irrigated once by using clear water, and after one day, the ripe watermelon is harvested.

In the step A, a temperature sensor, a heating lamp tube and a ventilation fan are installed in the greenhouse, the temperature sensor, the heating lamp tube and the ventilation fan are electrically connected with an external PLC, the temperature in the greenhouse is controlled to be 27 ℃, and through the temperature sensor, the heating lamp tube and the ventilation fan, people can monitor the temperature in the greenhouse in real time, so that the temperature in the greenhouse can be always at the optimal temperature for watermelon growth, the growth of the watermelon is accelerated, and the watermelon maturation period is shortened.

And in the step B, the depth of the ridge pits is controlled to be 29cm, the input amount of the base fertilizer is 3000 jin per mu, and the natural air drying time of the base fertilizer is 8 days, so that nutrients can be fully infiltrated into the soil, and the watermelon can grow well.

In the step C, the height of the ridge is controlled to be 16cm, the film is the best plastic film, the thickness of the film is 0.3mm, and the plastic film can ensure that the humidity of the soil can also play a role in heat preservation.

And D, controlling the distance between the adjacent seed pits to be 60cm, controlling the watering amount to be 500L per mu, fully wetting the soil, permeating water, controlling the distance between the adjacent seed pits to be 50cm-70cm, and reasonably arranging to ensure that the watermelon has enough growth space.

And E, controlling the spraying amount of the fertilizer to be 500L per mu, and controlling the fertilizing time to be 3 times per month, wherein the growth of the watermelon is accelerated and the mature period is shortened by the fertilizer spraying mode.

And F, controlling the watering amount to be 300L per mu in the flowering period, controlling the watering amount to be 600L per mu after fruit setting, enabling watermelons to form developed root systems in the seedling period through the watering mode, ensuring sufficient water supply after fruit setting, and being beneficial to fruit expansion and fruit weight increase.

Example 3: as shown in figure 1, the process for planting greenhouse watermelons, disclosed by the invention, comprises the following steps of:

A. building a garden: selecting a region with soft soil, convenient irrigation and drainage, high terrain and sufficient sunlight irradiation to construct a greenhouse, and cleaning weeds and rotten leaves in the greenhouse;

B. and (3) reclamation: a ditcher is used for arranging a plurality of ridge pits in the greenhouse, base fertilizer is sprayed in the ridge pits, and the base fertilizer is naturally dried in the ridge pits;

C. land preparation: breaking soil blocks in the ridge pits by using a shovel to keep the soil soft, piling up ridges on two sides of the ridge pits, and paving a film in the ridge pits;

D. planting: one day before sowing, watering the soil, digging a plurality of seed pits in the ridge pits, wherein the diameter of each seed pit is 5cm, putting the cultivated seeds into the seed pits, and controlling the number of the seeds put into the seed pits to be 8;

E. pruning and pressing vines: pressing vines grown from young melons, wherein the vines are trimmed in a three-vine trimming mode in sunny days and cannot be trimmed in cloudy days to prevent infection diseases, when the vines grow to be about 50cm, pressing the vines with soil once at intervals of 5 sections, and pressing each vine for 3 times;

F. fertilizing: dissolving the expanding melon fertilizer in irrigation water, and controlling the mixing ratio to be 1: 50, after mixing, spraying the mixture in soil for fertilization;

G. watering: the method comprises the following steps of (1) irrigating young melons regularly, wherein the young melons are not watered when no dead leaves appear in the seedlings in a seedling stage, and the watering times are controlled in a flowering stage of the young melons for 5 days/each time and after fruit setting for 3 days/each time;

H. harvesting: before the watermelon is harvested, the watermelon is irrigated once by using liquid dung, after three days, the watermelon is irrigated once by using clear water, and after one day, the ripe watermelon is harvested.

In the step A, a temperature sensor, a heating lamp tube and a ventilation fan are installed in the greenhouse, the temperature sensor, the heating lamp tube and the ventilation fan are electrically connected with an external PLC, the temperature in the greenhouse is controlled to be 28 ℃, and through the temperature sensor, the heating lamp tube and the ventilation fan, people can monitor the temperature in the greenhouse in real time, so that the temperature in the greenhouse can be always at the optimal temperature for watermelon growth, the growth of the watermelon is accelerated, and the watermelon maturation period is shortened.

In the step B, the depth of the ridge pits is controlled to be 30cm, the input amount of the base fertilizer is 3000 jin per mu, and the natural air drying time of the base fertilizer is 9 days, so that nutrients can be fully infiltrated into the soil, and the watermelon can grow well.

In the step C, the height of the furrows is controlled to be 17cm, the film is the best plastic film, the thickness of the film is 0.3mm, and the plastic film can ensure that the humidity of the soil can also play a role in heat preservation.

And D, controlling the distance between the adjacent seed pits to be 70cm, controlling the watering amount to be 500L per mu, fully wetting the soil, permeating water, controlling the distance between the adjacent seed pits to be 50cm-70cm, and reasonably arranging to ensure that the watermelon has enough growth space.

And E, controlling the spraying amount of the fertilizer to be 500L per mu, and controlling the fertilizing time to be 3 times per month, wherein the growth of the watermelon is accelerated and the mature period is shortened by the fertilizer spraying mode.

And F, controlling the watering amount to be 300L per mu in the flowering period, controlling the watering amount to be 600L per mu after fruit setting, enabling watermelons to form developed root systems in the seedling period through the watering mode, ensuring sufficient water supply after fruit setting, and being beneficial to fruit expansion and fruit weight increase.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The greenhouse watermelon planting process is characterized by comprising the following steps:

A. building a garden: selecting a region with soft soil, convenient irrigation and drainage, high terrain and sufficient sunlight irradiation to construct a greenhouse, and cleaning weeds and rotten leaves in the greenhouse;

B. and (3) reclamation: a ditcher is used for arranging a plurality of ridge pits in the greenhouse, base fertilizer is sprayed in the ridge pits, and the base fertilizer is naturally dried in the ridge pits;

C. land preparation: breaking soil blocks in the ridge pits by using a shovel to keep the soil soft, piling up ridges on two sides of the ridge pits, and paving a film in the ridge pits;

D. planting: one day before sowing, watering the soil, digging a plurality of seed pits in the ridge pits, wherein the diameter of each seed pit is 5cm, putting the cultivated seeds into the seed pits, and controlling the number of the seeds put into the seed pits to be 5-8 grains;

E. pruning and pressing vines: pressing vines grown from young melons, wherein the vines are trimmed in a three-vine trimming mode in sunny days and cannot be trimmed in cloudy days to prevent infection diseases, when the vines grow to be about 50cm, pressing the vines with soil at intervals of 3-5 sections once, and pressing each vine for 2-3 times;

F. fertilizing: dissolving the expanding melon fertilizer in irrigation water, and controlling the mixing ratio to be 1: 50, after mixing, spraying the mixture in soil for fertilization;

G. watering: the method comprises the following steps of (1) irrigating young melons regularly, wherein the young melons are not watered when no dead leaves appear in the seedlings in a seedling stage, and the watering times are controlled in a flowering stage of the young melons for 5 days/each time and after fruit setting for 3 days/each time;

H. harvesting: before the watermelon is harvested, the watermelon is irrigated once by using liquid dung, after three days, the watermelon is irrigated once by using clear water, and after one day, the ripe watermelon is harvested.

2. The process for planting greenhouse watermelons according to claim 1, wherein in the step A, a temperature sensor, a heating lamp tube and a ventilation fan are installed in the greenhouse, the temperature sensor, the heating lamp tube and the ventilation fan are electrically connected with an external PLC, and the temperature in the greenhouse is controlled to be 25-28 ℃.

3. The greenhouse watermelon planting process as claimed in claim 1, wherein in the step B, the depth of the ridge pits is controlled to be 28cm-30cm, the input amount of the base fertilizer is 3000 jin per mu, and the natural air drying time of the base fertilizer is 7-9 days.

4. The greenhouse watermelon planting process according to claim 1, wherein in the step C, the height of the ridge is controlled to be 15-17 cm, the film is preferably a plastic film, and the thickness of the film is 0.3 mm.

5. The process for planting greenhouse watermelons according to claim 1, wherein in the step D, the distance between adjacent planting pits is controlled to be 50cm-70cm, and the watering amount is controlled to be 500L per mu.

6. The process for planting greenhouse watermelons according to claim 1, wherein in the step E, the fertilizer spraying amount is controlled to be 500L per mu, and the fertilizer application time is 3 times per month.

7. The process for planting greenhouse watermelons according to claim 1, wherein in the step F, the watering amount is controlled to be 300L per mu in the flowering period, and the watering amount is controlled to be 600L per mu after fruit setting.

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