CN215992135U - Large-scale seedling raising device - Google Patents

Abstract

The utility model discloses a large-scale sprout cultivation device, which comprises a ground, the top on ground is equipped with the canopy body, the top of the canopy body is equipped with the canopy lid, the ground top of the internal portion of canopy is equipped with holds the liquid case, the ground top that holds liquid case one side is equipped with equidistant lower extreme sprout cultivation dish, the both sides on lower extreme sprout cultivation dish top all are equipped with the side lever, all be equipped with the strengthening rib on two lateral walls of side lever bottom, the bottom of strengthening rib and the top fixed connection of lower extreme sprout cultivation dish, install the porous sprout cultivation dish of third on the side lever inner wall of lower extreme sprout cultivation dish top, install the porous sprout cultivation dish of second on the side lever inner wall of the porous sprout cultivation dish top of third, install first porous sprout cultivation dish on the side lever inner wall that the porous sprout cultivation dish of third one end was kept away from to the porous sprout cultivation dish of second. The utility model discloses not only improve the sprout cultivation efficiency when sprout cultivation device uses, reached the purpose of constant temperature sprout cultivation, reduced the intensity of labour of staff when sprout cultivation device uses moreover.

Description

Large-scale seedling raising device

Technical Field

The utility model relates to a sprout cultivation device technical field specifically is extensive sprout cultivation device.

Background

The rice is one of herbaceous rice and the most important and longest kind of grain in the rice, and a corresponding seedling raising device is needed for transplanting, throwing, dibbling and the like of rice seedlings.

The existing seedling raising device on the market is inconvenient for carrying out multi-layer separate seedling raising treatment on seedlings, so that the seedling raising efficiency is difficult to reach the expectation, and people are often puzzled.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a large-scale sprout cultivation device to it is not convenient for carry out the problem that the multilayer divides the formula sprout cultivation to handle to the seedling to propose sprout cultivation device in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: large-scale sprout cultivation device, including ground, the top on ground is equipped with the canopy body, the top of the canopy body is equipped with the canopy lid, the ground top of the internal portion of canopy is equipped with holds the liquid case, the ground top of holding liquid case one side is equipped with equidistant lower extreme sprout cultivation dish, the both sides on lower extreme sprout cultivation dish top all are equipped with the side lever, all be equipped with the strengthening rib on two lateral walls of side lever bottom, the bottom of strengthening rib and the top fixed connection of lower extreme sprout cultivation dish, install the porous sprout cultivation dish of third on the side lever inner wall of lower extreme sprout cultivation dish top, install the porous sprout cultivation dish of second on the side lever inner wall of the porous sprout cultivation dish of third top, the porous sprout cultivation dish of second is kept away from and is installed first porous sprout cultivation dish on the side lever inner wall of the porous sprout cultivation dish one end of third, it installs control panel on the outer wall that the liquid case is close to lower extreme sprout cultivation dish one side to hold.

Preferably, the outer wall of one side of the liquid storage box is provided with a liquid injection port, and one end of the liquid injection port, which is far away from the liquid storage box, extends to the outside of the shed body so as to inject the nutrient solution into the liquid storage box.

Preferably, a water pump is installed at the center of the top end of the liquid storage box, one end of the water pump extends to the bottom of the liquid storage box through a guide pipe, and the input end of the water pump is electrically connected with the output end of the single chip microcomputer in the control panel, so that the nutrient solution in the liquid storage box can be injected into the grid liquid storage frame.

Preferably, the interior of the shed body above the first porous seedling raising tray is provided with a grid liquid storage frame, the top end of the grid liquid storage frame is communicated with one end of a water pump through a guide pipe, the bottom end of the grid liquid storage frame is provided with atomizing nozzles at equal intervals, the outer walls of two sides of the grid liquid storage frame are provided with bearing rods, and the top ends of the bearing rods are fixedly connected with the top of the shed cover so as to achieve the purpose of automatic spraying.

Preferably, all install the heating pipe on the two inside walls at canopy body top, the input of heating pipe and the output electric connection of the inside singlechip of control panel to release heat energy to the inside of the canopy body.

Preferably, the temperature-measuring meter is all installed on the top of side lever, the output of temperature-measuring meter and the input electric connection of the inside singlechip of control panel to the power of adjusting the heating pipe.

Compared with the prior art, the beneficial effects of the utility model are that: the large-scale seedling raising device not only improves the seedling raising efficiency when the seedling raising device is used, achieves the aim of raising seedlings at constant temperature, but also reduces the labor intensity of workers when the seedling raising device is used;

(1) the multi-layer gradually-increased seedling raising purpose can be achieved by sequentially arranging the third porous seedling raising disk, the second porous seedling raising disk and the first porous seedling raising disk on the inner wall of the side rod above the lower end seedling raising disk from bottom to top, and gradually reducing the widths of the third porous seedling raising disk, the second porous seedling raising disk and the first porous seedling raising disk compared with the widths of the lower end seedling raising disk, and arranging the lower end seedling raising disk, the third porous seedling raising disk, the second porous seedling raising disk and the first porous seedling raising disk into three groups of seedling raising units, so that the seedling raising efficiency of the seedling raising device in use is improved;

(2) the greenhouse cover is arranged at the top of the greenhouse body, so that a sealed seedling raising space is formed, the phenomenon that the outside air temperature erodes the seedling raising space can be reduced, the temperature of the space is monitored by the temperature gauge, relevant data can be fed back to the control panel, if the temperature is low, the control panel can give a corresponding instruction to the heating pipe, the heating pipe can release heat energy to the inside of the seedling raising space, the temperature control treatment can be conveniently carried out, and the purpose of constant-temperature seedling raising is achieved;

(3) nutrient solution is injected into the liquid storage box through the liquid injection port, the control panel is operated to open the water pump, the nutrient solution in the liquid storage box is conveyed to the inside of the lattice liquid storage frame, and then the nutrient solution is atomized and sprayed to the tops of the first porous seedling raising tray, the second porous seedling raising tray, the third porous seedling raising tray and the lower end seedling raising tray through the atomizing nozzle, so that the purpose of automatic spraying is achieved, and the labor intensity of workers is reduced when the seedling raising device is used.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

fig. 2 is a schematic side view of the cross-sectional structure of the present invention;

FIG. 3 is a schematic view of the first porous seedling raising tray of the present invention;

fig. 4 is a schematic view of the grid liquid storage frame according to the present invention.

In the figure: 1. a ground surface; 2. a liquid storage tank; 3. a liquid injection port; 4. a water pump; 5. heating a tube; 6. a shed cover; 7. a carrier bar; 8. a grid-shaped liquid storage frame; 9. an atomizing nozzle; 10. a first porous seedling raising tray; 11. a shed body; 12. a temperature gauge; 13. a side lever; 14. a second porous seedling raising tray; 15. a third porous seedling raising tray; 16. reinforcing ribs; 17. a lower seedling raising tray; 18. a control panel.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: the large-scale seedling raising device comprises a ground 1, wherein a shed body 11 is arranged at the top end of the ground 1, heating pipes 5 are mounted on two inner side walls of the top of the shed body 11, the type of each heating pipe 5 can be FCD-HM50GI, and the input ends of the heating pipes 5 are electrically connected with the output end of a single chip microcomputer in a control panel 18;

when in use, the heating pipe 5 is opened so as to release heat energy to the inside of the shed body 11;

a shed cover 6 is arranged at the top of the shed body 11, a liquid storage tank 2 is arranged at the top end of the ground 1 in the shed body 11, a liquid injection port 3 is arranged on the outer wall of one side of the liquid storage tank 2, and one end, far away from the liquid storage tank 2, of the liquid injection port 3 extends to the outside of the shed body 11;

when in use, the liquid injection port 3 is opened so as to inject nutrient solution into the liquid storage tank 2;

the water pump 4 is installed at the center of the top end of the liquid storage box 2, the type of the water pump 4 can be 150QJ20-54/9, one end of the water pump 4 extends to the bottom of the liquid storage box 2 through a guide pipe, and the input end of the water pump 4 is electrically connected with the output end of the single chip microcomputer in the control panel 18;

when the nutrient solution is filled cell is filled into the nutrient solution is filled into the interior of the;

the interior of a shed body 11 above a first porous seedling raising tray 10 is provided with a grid-shaped liquid storage frame 8, the top end of the grid-shaped liquid storage frame 8 is communicated with one end of a water pump 4 through a guide pipe, the bottom end of the grid-shaped liquid storage frame 8 is provided with atomizing nozzles 9 at equal intervals, the outer walls of two sides of the grid-shaped liquid storage frame 8 are provided with bearing rods 7, and the top ends of the bearing rods 7 are fixedly connected with the top of a shed cover 6;

when the device is used, the lattice liquid storage frame 8 is arranged through the bearing rod 7, and nutrient solution in the lattice liquid storage frame 8 is uniformly sprayed through the atomizing nozzle 9, so that the aim of automatic spraying is fulfilled;

the top end of the ground 1 on one side of the liquid storage box 2 is provided with lower end seedling raising plates 17 at equal intervals, side rods 13 are arranged on two sides of the top end of each lower end seedling raising plate 17, thermometer scales 12 are mounted on the top ends of the side rods 13, the types of the thermometer scales 12 can be PT100, and the output ends of the thermometer scales 12 are electrically connected with the input end of a single chip microcomputer in a control panel 18;

when in use, the temperature inside the shed body 11 is monitored by the thermometer 12 so as to adjust the power of the heating pipe 5;

two outer side walls at the bottom of the side rods 13 are provided with reinforcing ribs 16, and the bottom ends of the reinforcing ribs 16 are fixedly connected with the top ends of the lower seedling raising trays 17;

a third porous seedling raising tray 15 is arranged on the inner wall of a side rod 13 above a lower end seedling raising tray 17, a second porous seedling raising tray 14 is arranged on the inner wall of the side rod 13 above the third porous seedling raising tray 15, a first porous seedling raising tray 10 is arranged on the inner wall of the side rod 13 at one end, far away from the third porous seedling raising tray 15, of the second porous seedling raising tray 14, a control panel 18 is arranged on the outer wall of one side, close to the lower end seedling raising tray 17, of the liquid storage box 2, and the model of the control panel 18 can be GC-1.

When the multi-layer multi-hole seedling raising device is used, the third multi-hole seedling raising tray 15, the second multi-hole seedling raising tray 14 and the first multi-hole seedling raising tray 10 are sequentially arranged on the inner wall of the side rod 13 above the lower end seedling raising tray 17 from bottom to top, the width of the third multi-hole seedling raising tray 15, the width of the second multi-hole seedling raising tray 14 and the width of the first multi-hole seedling raising tray 10 are gradually reduced compared with that of the lower end seedling raising tray 17, the third multi-hole seedling raising tray 15, the width of the second multi-hole seedling raising tray 14 and the width of the first multi-hole seedling raising tray 10 are formed into a group of seedling raising units, the seedling raising units are arranged into three groups, the aim of multi-layer and stepwise seedling raising can be achieved, then the nutrient solution in the liquid storage box 2 is conveyed to the interior of the liquid storage frame 8 by opening the water pump 4, and then the nutrient solution is atomized and sprayed to the tops of the first multi-hole seedling raising tray 10, the second multi-hole seedling raising tray 14, the third multi-hole seedling raising tray 15 and the lower end seedling raising tray 17 by the atomizing nozzle 9, in order to achieve the purpose of automatic spraying, the lower ends of the first porous seedling raising tray 10, the second porous seedling raising tray 14 and the third porous seedling raising tray 15 are all provided with strip-shaped spraying pipelines, the bottom ends of the strip-shaped spraying pipelines are provided with nozzles at equal intervals, so that nutrient solution sequentially flows into the strip-shaped spraying pipelines from top to bottom, and then is sequentially sprayed to the tops of the second porous seedling raising tray 14, the third porous seedling raising tray 15 and the lower end seedling raising tray 17 through the nozzles, spraying treatment can be efficiently and uniformly carried out, the canopy cover 6 and the canopy body 11 are transparent, solar light energy can directly irradiate the interior of the canopy body 11, the first porous seedling raising tray 10, the second porous seedling raising tray 14, the third porous seedling raising tray 15 and the lower end seedling raising tray 17 are arranged from top to bottom, the widths of the first porous seedling raising tray 10, the second porous seedling raising tray 14, the third porous seedling raising tray 15 and the lower end seedling raising tray 17 gradually decrease in width, so that the seedlings at the tops can be uniformly irradiated by the solar light energy, and further ensuring the lighting effect of the seedlings, finally arranging the canopy cover 6 on the top of the canopy body 11 to form a sealed seedling raising space, monitoring the temperature of the seedling raising space by a thermometer scale 12, so that the temperature of the seedling raising space is lower, generating a corresponding instruction on the heating pipe 5 by the control panel 18 to enable the heating pipe 5 to release heat energy to the inside of the seedling raising space, and achieving the purpose of constant temperature seedling raising, and then connecting the outer walls of the two sides of the first porous seedling raising tray 10, the second porous seedling raising tray 14 and the third porous seedling raising tray 15 with the inner walls of the side rods 13 by adopting chain components which are common dismounting and operating structures on the market so as to dismount the first porous seedling raising tray 10, the second porous seedling raising tray 14 and the third porous seedling raising tray 15, thereby achieving the purposes of convenient operation, labor and cost saving and convenient transportation, thereby completing the use of the seedling raising device.

Claims (6)

1. The large-scale seedling raising device is characterized by comprising a ground (1), wherein a shed body (11) is arranged at the top end of the ground (1), a shed cover (6) is arranged at the top of the shed body (11), a liquid storage box (2) is arranged at the top end of the ground (1) in the shed body (11), lower end trays (17) with equal intervals are arranged at the top end of the ground (1) on one side of the liquid storage box (2), side rods (13) are arranged on two sides of the top end of each lower end seedling raising tray (17), reinforcing ribs (16) are arranged on two outer side walls at the bottoms of the side rods (13), the bottom ends of the reinforcing ribs (16) are fixedly connected with the top end of each lower end seedling raising tray (17), a third porous seedling raising tray (15) is arranged on the inner wall of each side rod (13) above the corresponding lower end seedling raising tray (17), a second porous seedling raising tray (14) is arranged on the inner wall of each side rod (13) above the corresponding third porous seedling raising tray (15), a first porous seedling raising tray (10) is mounted on the inner wall of a side rod (13) at one end, far away from a third porous seedling raising tray (15), of the second porous seedling raising tray (14), and a control panel (18) is mounted on the outer wall of one side, close to a lower end seedling raising tray (17), of the liquid storage box (2).

2. The large-scale seedling raising apparatus according to claim 1, wherein: it annotates liquid mouth (3) to be equipped with on the outer wall of liquid storage box (2) one side, annotate liquid mouth (3) and keep away from the one end of liquid storage box (2) and extend to the outside of canopy body (11).

3. The large-scale seedling raising apparatus according to claim 1, wherein: hold the central point on liquid case (2) top and put the department and install water pump (4), the one end of water pump (4) is passed through the pipe and is extended to the bottom that holds liquid case (2), the input of water pump (4) and the output electric connection of the inside singlechip of control panel (18).

4. The large-scale seedling raising apparatus according to claim 3, wherein: the multi-hole seedling raising tray is characterized in that a grid-shaped liquid storage frame (8) is arranged inside a tray body (11) above a first multi-hole seedling raising tray (10), the top end of the grid-shaped liquid storage frame (8) is communicated with one end of a water pump (4) through a guide pipe, atomizing nozzles (9) at equal intervals are installed at the bottom end of the grid-shaped liquid storage frame (8), bearing rods (7) are arranged on the outer walls of two sides of the grid-shaped liquid storage frame (8), and the top ends of the bearing rods (7) are fixedly connected with the top of a tray cover (6).

5. The large-scale seedling raising apparatus according to claim 1, wherein: heating pipes (5) are mounted on two inner side walls of the top of the greenhouse body (11), and the input ends of the heating pipes (5) are electrically connected with the output end of the single chip microcomputer in the control panel (18).

6. The large-scale seedling raising apparatus according to claim 1, wherein: temperature strapping table (12) are all installed on the top of side lever (13), the output of temperature strapping table (12) and the input electric connection of the inside singlechip of control panel (18).

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