CN212393387U - Rapid interplanting structure for ground cover plants - Google Patents

Abstract

The utility model provides a quick interplanting structure of ground cover plant comprises greenhouse, automatic light modulation part, waterlogging caused by excessive rainfall collecting part, watering part, purification part, automatic seeding part. The greenhouse is provided with a plastic shed, a first wall body and a second wall body, the height of the first wall body is larger than that of the second wall body, the plastic shed faces the north after being erected on the first wall body and the second wall body, and sunlight is prevented from directly entering the greenhouse. A first planting frame is arranged at the bottom in the greenhouse, and first planting soil is placed in the first planting frame and used for planting first plants. And a second planting frame is arranged at the upper part in the greenhouse, and second planting soil is placed in the second planting frame and used for planting a second plant. The utility model discloses growth habit to different plants sets up the structure in greenhouse pertinence to be equipped with the watering part, the watering part has set up different watering modes to different plants, has also helped improving the survival rate of plant when having practiced thrift the water source. The greenhouse is also provided with an automatic seeder with simple structure, thereby improving the production efficiency and saving the production cost.

Description

Rapid interplanting structure for ground cover plants

Technical Field

The utility model belongs to the technical field of the interplanting, concretely relates to quick interplanting structure of ground cover plant.

Background

The interplanting is a planting mode of sowing among rows in the later growth period of the previous season crops or transplanting the later season crops, and compared with the single cropping, the method can not only make full use of space in stages, but also can prolong the growth season of the later season crops, improve the multiple cropping index and improve the total annual output.

The publication number CN207665588U discloses a multi-plant interplanting cultivation device, which comprises a planting greenhouse, wherein the planting greenhouse is provided with a partition board, the partition board is provided with a plurality of through holes, the partition board divides the planting greenhouse into an upper layer space and a lower layer space, the lower layer space is provided with a hollow upright, the hollow upright is provided with a through hole, the top end of the lower layer space is provided with a water seepage pipe, the water seepage pipe is provided with a switch, one end of the water seepage pipe is connected with the through holes, and the other end of the water seepage pipe is connected with the top end of the hollow upright; the utility model discloses make full use of plants the space, plants according to different growth habits plant, the water economy resource.

The interplanting device in the prior art is only simple cultivation frame superposition, and does not carry out targeted regulation according to the growth characteristics of different sets of plants, especially plants with strict requirements on the growth environment, so that the survival rate of plant cultivation is lower, and a necessary irrigation device in the plant growth process is also lacked. But also can not automatically sow for large-area nursery planting and has low production efficiency.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough, the utility model aims at providing a quick interplanting structure of ground cover plant.

The utility model provides a following technical scheme:

a rapid interplanting structure for ground cover plants comprises a greenhouse, wherein the greenhouse is provided with a plastic shed, a first wall body and a second wall body; an automatic dimming component is arranged on the first wall body; a first planting frame is arranged at the bottom in the greenhouse, and first planting soil is placed in the first planting frame; a second planting frame is arranged at the upper part in the greenhouse, a draining and collecting part is arranged at the bottom of the second planting frame, and second planting soil is placed in the second planting frame; the greenhouse is also provided with a pouring part in a matching way;

the pouring part comprises a bin; the material box is connected with a first pipeline, and the first pipeline penetrates through a first through hole formed in the second wall body and extends into the greenhouse; one end of the first pipeline, which extends into the greenhouse, is connected with a first spray pipe; the material box is also connected with a second pipeline; one end of the second pipeline is connected with the feed box, and the other end of the second pipeline is connected with the atomizer; the atomizer is connected with a third pipeline, and the third pipeline penetrates through a second through hole formed in the second wall body and extends into the greenhouse; one end of the pipeline III extending into the greenhouse is connected with a spray pipe II; the atomizer is also connected with a pipeline IV; one end of the pipeline four is connected with the atomizer, and the other end of the pipeline four is connected with the purification component; the purifying part is connected with a pipeline five, the pipeline five penetrates through a through hole three formed in the wall body two and extends into the greenhouse, and one end, extending into the greenhouse, of the pipeline five is connected with the draining collecting part;

and the planting frame I and the planting frame II are provided with automatic seeding parts in a matching way.

The first wall body is higher than the second wall body, so that the plastic shed faces north.

The automatic dimming component comprises a glass window arranged on a first wall body; an electric curtain rolling machine is arranged above the glass window; the electric curtain rolling machine is connected with a controller; the controller is connected with an optical sensor, and the optical sensor is arranged on one outer side of the wall body.

The draining collecting component comprises a draining plate, and draining holes are uniformly distributed on the draining plate; a collecting frame is arranged below the draining plate, a collecting tank is arranged in the collecting frame, and the lower end of the collecting tank is inclined; the lowest end of the collecting groove is provided with a fourth through hole, and the fifth pipeline is installed in a matching mode with the fourth through hole.

The purification component comprises a tank body, and the lower part of the tank body is conical; a stirring component is arranged in the tank body; the stirring component is connected with a first motor; one side of the upper end of the tank body is connected with a flocculating agent barrel; the other side of the upper end of the tank body is connected with a pipeline V in a matching way; the middle part of one side of the tank body is connected with a pipeline IV in a matching way; the lower part of the tank body is connected with a sludge collecting barrel in a matching way.

The automatic seeding part comprises a pair of electric sliding tables erected at the left end and the right end of the planting frame I or the planting frame II; each electric sliding table is provided with a sliding block in a matched manner; a bracket is connected between the two sliding blocks; at least one automatic seeder is arranged on the bracket;

the automatic seeder comprises a machine body; a ground breaking plate is arranged on one side of the lower end surface of the machine body; the other side of the lower end surface of the machine body is provided with a soil covering plate; a motor component is arranged in the machine body; the motor assembly is connected with a feeding wheel; the upper part of the feeding wheel is provided with a feeding frame which is connected with a seed barrel arranged on the upper end surface of the machine body; the lower part of the feeding wheel is provided with a hopper.

The utility model has the advantages that:

the utility model discloses growth habit to different plants sets up the structure in greenhouse pertinence to be equipped with the watering part, the watering part has set up different watering modes to different plants, has also helped improving the survival rate of plant when having practiced thrift the water source. The greenhouse is also provided with an automatic seeder with simple structure, thereby improving the production efficiency and saving the production cost.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic view of the installation of the automatic light adjusting component of the present invention;

FIG. 3 is a schematic structural view of the draining board of the present invention;

fig. 4 is a schematic structural view of the collecting frame of the present invention;

FIG. 5 is a schematic view of the structure of the purifying member of the present invention;

FIG. 6 is a schematic view of the installation of the automatic seeding part of the present invention;

FIG. 7 is a schematic view of the automatic seeder of the present invention;

fig. 8 is the installation schematic diagram of the earth breaking plate and the earth covering plate of the present invention.

Labeled as: the automatic light-adjusting and light-collecting greenhouse comprises a plastic shed 101, a first wall 102, a second wall 103, a first planting frame 104, a second planting frame 105, a first planting soil 106, a first plant 107, a second planting soil 108, a second plant 109, an automatic light-adjusting component 200, a light sensor 201, a controller 202, an electric roller shutter machine 203, a glass window 204, a draining collecting component 300, a draining plate 301, a draining hole 302, a collecting frame 303, a collecting tank 304, a first spray pipe 401, a first pipeline 402, a second spray pipe 403, a bin 404, a second pipeline 405, a fifth pipeline 406, a fourth pipeline 407, a third pipeline 408, an atomizer 409, a purifying component 500, a tank body 501, a stirring component 502, a first motor 503, a flocculating agent barrel 504, a sludge collecting barrel 505, an electric sliding table 601, a sliding block 602, a support 603, an automatic seeder 604, a seed barrel 605, a feeding frame 606, a feeding wheel 607, a motor component 608, a soil breaking plate 609, a soil.

Detailed Description

As shown in the figure, the rapid interplanting structure for the ground cover plants comprises a greenhouse, an automatic light adjusting component 200, a draining and collecting component 300, a watering component, a purifying component 500 and an automatic sowing component. The greenhouse is provided with a plastic shed 101, a first wall 102 and a second wall 103, the height of the first wall 102 is larger than that of the second wall 103, the plastic shed 101 faces the north after being erected on the first wall 102 and the second wall 103, and sunlight is prevented from directly entering the greenhouse. A planting frame I104 is arranged at the bottom in the greenhouse, and planting soil I106 is placed in the planting frame I104 and used for planting a plant I107. A second planting frame 105 is arranged at the upper part in the greenhouse, and second planting soil 108 is placed in the second planting frame 105 and used for planting a second plant 109.

An automatic dimming component 200 is mounted on the first wall 102, and the automatic dimming component 200 is composed of a light sensor 201, a controller 202, an electric roller shutter 203 and a glass window 204. The glass window 204 is installed on the first wall 102 and is located between the first planting rack 104 and the second planting rack 105. The automatic curtain rolling machine 203 is installed above the glass window 204, the automatic curtain rolling machine 203 is electrically connected with the controller 202, the optical sensor 201 is installed on the outer side of the first wall 102, and the optical sensor 201 is electrically connected with the controller 202. When the illumination intensity exceeds the illumination intensity suitable for growth of a plant, the light sensor 201 sends a signal to the controller 202, the controller 202 controls the automatic curtain rolling machine 203 to start, and the curtain of the automatic curtain rolling machine 203 falls down to be shielded outside the glass window 204 to prevent sunlight from directly irradiating the plant I in the greenhouse.

The second draining collecting part 300 is arranged at the bottom of the second planting frame 105, and the draining collecting part 300 is composed of a draining plate 301 and a collecting frame 303. Draining holes 302 are uniformly distributed on the draining plate 301, and a collecting frame 303 is arranged below the draining plate 301. A collecting groove 304 is arranged in the collecting frame 303, the lower end of the collecting groove 304 is inclined, and the lowest end of the collecting groove 304 is provided with a through hole four. The water drops soaked in the planting soil II 108 pass through the draining holes 302 on the draining plate 301 and fall into the collecting frame 303, and then the water drops are gathered towards the through hole IV along the lower end of the collecting tank 304 under the action of gravity.

The greenhouse is also provided with a pouring component in a matching way, and the pouring component consists of a first spray pipe 401, a first pipeline 402, a second spray pipe 403, a bin 404, a second pipeline 405, a fifth pipeline 406, a fourth pipeline 407, a third pipeline 408, an atomizer 409 and a purifying component 500. The first pipeline 402 is connected with the bin 404, a water pump and a valve are arranged on the first pipeline 402 in a matched mode, the first pipeline 402 penetrates through a first through hole formed in the second wall body 103 and extends into the greenhouse, one end, extending into the greenhouse, of the first pipeline 402 is connected with a first spray pipe 401, and the first spray pipe 401 is located above the second plant 109. One end of the second pipeline 405 is connected with the feed box 404, the other end of the second pipeline is connected with the atomizer 409, and a valve is arranged on the second pipeline 405 in a matching mode. The third pipeline 408 is connected to the atomizer 409, a valve is arranged on the third pipeline 408 in a matched mode, the third pipeline 408 penetrates through a second through hole formed in the second wall 103 and extends into the greenhouse, one end, extending into the greenhouse, of the third pipeline 408 is connected with the second spray pipe 403, the second spray pipe 403 is located below the second planting frame 105, and the second spray pipe 403 is located above the first plant 107. One end of the fourth conduit 407 is connected with the atomizer 409, and the other end is connected with the purification component 500. The tank 404 is filled with water or liquid fertilizer, and the water or liquid fertilizer can enter the spray pipe I401 through the pipeline I402 to spray the plants II 109. Water or liquid fertilizer can also enter the spray pipe II 403 through the pipeline III 408 to spray the plant I107 after being atomized by the atomizer 409 through the pipeline II 405.

The purification component 500 is composed of a tank 501, a stirring component 502, a first motor 503, a flocculating agent barrel 504 and a sludge collection barrel 505. The lower part of the tank 501 is conical, a stirring component 502 is arranged in the tank 501, a first motor 503 is connected with the stirring component 502, and the first motor 503 can drive the stirring component 502 to rotate. The flocculating agent barrel 504 is installed on one side of the upper end of the tank body 501 in a matching mode, the pipeline five 406 is installed on the other side of the upper end of the tank body 501 in a matching mode, the pipeline five 406 penetrates through a through hole three formed in the wall body two 103 and extends into the greenhouse, and one end, extending into the greenhouse, of the pipeline five 406 is installed in a matching mode with the through hole four. The middle part of one side of the tank body 501 is connected with a pipeline four 407 in a matching way. The sludge collecting barrel 505 is fittingly connected to the lower portion of the tank 501. The sewage accumulated in the collecting tank 304 enters the tank body 501 through the fifth pipeline 406, the flocculant in the flocculant bucket 504 is injected into the tank body 501, then the first motor 503 is started, the first motor 503 drives the stirring assembly 502 to rotate to stir the sewage and the flocculant, then the machine is stopped to wait for sewage precipitation, the clean water enters the atomizer 409 for reutilization through the fourth pipeline 407, and the sludge falls into the sludge collecting bucket 505 to be collected.

The planting shelves I104 and the planting shelves II 105 are provided with automatic seeding parts in a matching way. The automatic seeding part consists of an electric sliding table 601, a sliding block 602, a bracket 603 and an automatic seeding machine 604. The pair of electric sliding tables 601 are erected at the left end and the right end of the planting frame I104 or the planting frame II 105 respectively. Each electric sliding table 601 is fittingly provided with a sliding block 602, and the sliding block 602 can linearly move along the electric sliding table 601. A bracket 603 is connected between the two sliding blocks 602, and at least one automatic seeder 604 is arranged on the bracket 603.

The automatic seeder 604 comprises a seed barrel 605, a feeding frame 606, a feeding wheel 607, a motor component 608, a ground breaking plate 609, a soil covering plate 610, a machine body 611 and a hopper 612. The soil breaking plate 609 is installed at one side of the lower end surface of the machine body 611, and the soil covering plate 610 is installed at the other side of the lower end surface of the machine body 611. The motor assembly 608 is installed in the machine body 611, the feeding wheel 607 is connected to the motor assembly 608, and the motor assembly 608 can drive the feeding wheel 607 to rotate. Cylindrical grooves are uniformly arranged on the circumferential surface of the feeding wheel 607. The feeding frame 606 is installed on the upper portion of the feeding wheel 607, the feeding frame 606 is connected with the seed barrel 605 installed on the upper end surface of the machine body 611, and the hopper 612 is installed on the lower portion of the feeding wheel 607 in a matching manner. The electric sliding table 601 drives the sliding block 602 to drive the bracket 603 to do linear motion, the bracket 603 drives the automatic seeder 604 to do linear motion together, and the soil is cut into a groove by the soil breaking plate 609 at the front end of the automatic seeder 604. When the motor assembly 608 drives the feeding wheel 607 to rotate until the notch of the cylindrical groove is opposite to the feeding wheel 606, seeds in the seed barrel 605 fall into the cylindrical groove on the feeding wheel 607 through the feeding wheel 606, then the motor assembly 608 drives the feeding wheel 607 to rotate, so that the notch of the cylindrical groove is opposite to the hopper 612, the seeds in the cylindrical groove fall into the hopper 612, then slide out along the hopper 612 and fall into the groove. When the bracket 603 continues to move the automatic seeding machine 604, the covering plate 610 at the rear end of the automatic seeding machine 604 pushes soil to cover the seeds in the groove.

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 modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. 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 (6)

1. The utility model provides a quick interplanting structure of ground cover plant which characterized in that: comprises a greenhouse, wherein the greenhouse is provided with a plastic shed (101), a first wall (102) and a second wall (103); an automatic dimming component (200) is installed on the first wall (102); a first planting frame (104) is arranged at the bottom in the greenhouse, and first planting soil (106) is placed in the first planting frame (104); a second planting frame (105) is arranged at the upper part in the greenhouse, a draining and collecting component (300) is arranged at the bottom of the second planting frame (105), and second planting soil (108) is placed in the second planting frame (105); the greenhouse is also provided with a pouring part in a matching way;

the watering component comprises a bin (404); the bin (404) is connected with a first pipeline (402), and the first pipeline (402) penetrates through a first through hole formed in the second wall body (103) and extends into the greenhouse; one end of the first pipeline (402) extending into the greenhouse is connected with a first spray pipe (401); the feed box (404) is also connected with a second pipeline (405); one end of the second pipeline (405) is connected with the feed box (404), and the other end of the second pipeline is connected with the atomizer (409); the atomizer (409) is connected with a third pipeline (408), and the third pipeline (408) penetrates through a second through hole formed in the second wall body (103) and extends into the greenhouse; one end of the pipeline III (408) extending into the greenhouse is connected with a spray pipe II (403); the atomizer (409) is also connected with a pipeline four (407); one end of the fourth pipeline (407) is connected with the atomizer (409), and the other end is connected with the purification component (500); the purification component (500) is connected with a pipeline five (406), the pipeline five (406) penetrates through a through hole three formed in the wall body two (103) and extends into the greenhouse, and one end, extending into the greenhouse, of the pipeline five (406) is connected with the draining collection component (300);

the planting frame I (104) and the planting frame II (105) are provided with automatic seeding parts in a matching way.

2. The rapid interplanting structure of ground cover plants according to claim 1, wherein: the first wall (102) is higher than the second wall (103) so that the plastic shed (101) faces north.

3. The rapid interplanting structure of ground cover plants according to claim 1, wherein: the automatic dimming component (200) comprises a glass window (204) installed on a first wall body (102); an electric curtain rolling machine (203) is arranged above the glass window (204); the electric curtain rolling machine (203) is connected with a controller (202); the controller (202) is connected with the optical sensor (201), and the optical sensor (201) is installed on the outer side of the first wall (102).

4. The rapid interplanting structure of ground cover plants according to claim 1, wherein: the draining collecting component (300) comprises a draining plate (301), and draining holes (302) are uniformly distributed on the draining plate (301); a collecting frame (303) is arranged below the draining plate (301), a collecting tank (304) is arranged in the collecting frame (303), and the lower end of the collecting tank (304) is inclined; the lowest end of the collecting groove (304) is provided with a fourth through hole, and the fifth pipeline (406) is installed in a matching mode with the fourth through hole.

5. The rapid interplanting structure of ground cover plants according to claim 1 or 4, wherein: the purification part (500) comprises a tank body (501), and the lower part of the tank body (501) is conical; a stirring component (502) is arranged in the tank body (501); the stirring component (502) is connected with a first motor (503); one side of the upper end of the tank body (501) is connected with a flocculating agent barrel (504); the other side of the upper end of the tank body (501) is connected with a pipeline five (406) in a matching way; the middle part of one side of the tank body (501) is connected with a pipeline four (407) in a matching way; the lower part of the tank body (501) is connected with a sludge collecting barrel (505) in a matching way.

6. The rapid interplanting structure of ground cover plants according to claim 1, wherein: the automatic seeding part comprises a pair of electric sliding tables (601) erected at the left end and the right end of the planting frame I (104) or the planting frame II (105); each electric sliding table (601) is provided with a sliding block (602) in a matched manner; a bracket (603) is connected between the two sliding blocks (602); at least one automatic seeder (604) is arranged on the bracket (603);

the automatic seeder (604) comprises a body (611); a ground breaking plate (609) is arranged on one side of the lower end surface of the machine body (611); the other side of the lower end surface of the machine body (611) is provided with a soil covering plate (610); a motor component (608) is arranged in the machine body (611); the motor component (608) is connected with a feeding wheel (607); the feeding frame (606) is arranged at the upper part of the feeding wheel (607), and the feeding frame (606) is connected with the seed barrel (605) arranged on the upper end surface of the machine body (611); the lower part of the feeding wheel (607) is provided with a hopper (612).

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