CN220915901U - Melon vegetables high-efficient device of growing seedlings - Google Patents

Abstract

The utility model discloses a melon vegetable high-efficiency seedling raising device which comprises a support frame assembly, a cultivation tray and a net-shaped setting element, wherein a plurality of cultivation trays are arranged at the upper part of the support frame assembly, a plurality of seedling cups are uniformly molded on the surfaces of the cultivation trays, the net-shaped setting element is paved inside the seedling cups, the periphery of the top of the net-shaped setting element is buckled with the cultivation trays, and cultivation matrixes and matrixes are arranged inside the net-shaped setting element and used for cultivating seedlings; the netted lining support subassembly includes rectangle lining strip, carries handle, lining net, cassette one, and rectangle lining strip is placed in seedling cup top edge, and the bottom integrated into one piece of rectangle lining strip is provided with the lining net, and the lining net is inside holds the matrix and cultivates the seedling, and the four corners department of rectangle lining strip is provided with cassette one, through the setting of netted lining support subassembly, has realized quick, convenient the taking grow seedlings to and through whole taking cultivate the tray, improved the efficiency that grows seedlings and taken out the planting, solved the loaded down with trivial details step of taking out the seedling and reinforcing labour and paid the problem.

Description

Melon vegetables high-efficient device of growing seedlings

Technical Field

The utility model relates to the technical field of melon vegetable seedling raising, in particular to a melon vegetable efficient seedling raising device.

Background

Melon vegetables are one of indispensable foods in people's daily diet, and contain nutrients such as various vitamins and minerals necessary for human body. In the vegetable planting process, seed seedling raising is needed, and vegetable seedlings are transplanted, so that the vegetable survival rate and vegetable yield are improved; but seedling raising is a labor-intensive, time-consuming and technically strong task;

Such as publication (bulletin) number: CN212035125U discloses a vegetable seed seedling raising box, including box, protective housing, mount, support the baffle to be fixed in the box, the foam-rubber cushion is fixed support the baffle top, the mount is fixed the foam-rubber cushion top, support the otter board and pass through the draw-in groove to be fixed in the mount, the slider passes through the fix with screw the mount both sides, the fluorescent lamp passes through the fix with screw to be set up the mount top, the atomizer is fixed the fluorescent lamp both sides, the probe sets up support the otter board top, the spring rope passes through the viscose to be fixed the probe top, soil humidity sensor is fixed probe one side.

According to the technology, the culture soil with vegetable seedlings is ejected out by hands or other tools to take out the seedlings, but the user needs to operate for many times to finish the work due to the fact that the culture soil in the fixing frame is more, so that the labor intensity is high and time is wasted; meanwhile, the water-bearing property of the seedling root system in the prior art can extend to the outside of the cultivation container, so that the seedling root system is coiled on the outer surface of the cultivation container, and the seedling root system is easily broken under the condition of direct ejection or taking out, so that the seedling root system is not beneficial to the subsequent disease and insect prevention in the planting process.

Disclosure of utility model

Aiming at the problems in the prior art, the utility model provides the melon vegetable efficient seedling raising device, which realizes quick and convenient seedling raising by arranging the reticular susceptor assembly, prevents the matrix from scattering, avoids the damage to seedling raising caused by taking out the seedling raising by direct contact, further improves the seedling raising, taking out and planting efficiency by integrally taking out the cultivation tray, and solves the problems of complicated step of taking out the seedling raising and labor force improvement.

In order to achieve the above purpose, the present utility model is realized by the following technical scheme: the utility model provides a melon vegetables high-efficient device of growing seedlings, includes support frame subassembly, cultivates tray, netted susceptor assembly, and support frame subassembly's upper portion is provided with a plurality of and cultivates the tray, cultivates the even moulding notes in surface of tray and has a plurality of seedling cup, and netted susceptor assembly has been laid to seedling cup inside, netted susceptor assembly's top all around with cultivate the tray lock joint, netted susceptor assembly inside is provided with cultivates matrix, matrix and is used for cultivating the seedling.

Further, the netted lining support assembly comprises a rectangular lining strip, a lifting handle, a lining net and a clamping seat I, wherein the rectangular lining strip is placed at the edge of the top of the seedling cup, the lining net is integrally formed at the bottom of the rectangular lining strip, the lining net is internally provided with a substrate for cultivating seedlings, the clamping seat I is arranged at four corners of the rectangular lining strip, the lifting handles are symmetrically arranged on two opposite sides of the rectangular lining strip, and the lifting handles and the rectangular lining strip are integrally formed through plastic injection.

Further, the axial lateral surface of the seedling cup is uniformly provided with the first air holes, and the bottom of the seedling cup is uniformly provided with the second air holes.

Further, the density of the second air holes is higher than that of the first air holes, and the aperture of the first air holes is larger than that of the second air holes.

Further, the surfaces of the cultivation trays at the four corners of the seedling cup are provided with a second clamping seat, and the first clamping seat is buckled with the second clamping seat.

Further, the strut subassembly includes two horizontal bracing pieces, a plurality of vertical bracing piece, and horizontal bracing piece bottom is provided with a plurality of dead lever one, and a pair of opposite both sides surface symmetry of dead lever is provided with backup pad one, installs a plurality of vertical bracing piece between the horizontal bracing piece, and parallel arrangement between a plurality of vertical bracing piece, places a cultivation tray between two vertical bracing pieces that are close to each other.

Further, two longitudinal support rods adjacent to each other and the transverse support rods on two sides of the longitudinal support rods surround to form a placing frame, protrusions are uniformly arranged on the circumferential surface of the top of the placing frame, and grooves matched with the protrusions are formed in the circumferential edge of the bottom of the cultivating tray.

Further, the surfaces of the transverse supporting rods, which are positioned on the two sides of the cultivation tray, are symmetrically provided with inserting cylinders, and the surfaces of the two opposite sides of the inserting cylinders are symmetrically provided with limiting grooves which are inserted with the first supporting plate.

Further, handles are symmetrically arranged on the two opposite side surfaces of the cultivation tray.

In summary, the utility model provides a melon vegetable high-efficiency seedling raising device, which can quickly take out seedling raising through the net-shaped setting-off assembly 3, and solves the technical problems of high labor intensity and time consumption caused by the fact that the existing seedling raising device is more in culture soil and needs multiple times of operation by users;

the method comprises the following steps: the setting-off net is attached to the inside of the seedling cup, the culture substrate is placed in the seedling cup for cultivating and raising seedlings, the low-pressure shower is adopted for remote irrigation during irrigation, the substrate is not lost, the seedling seeds can fully absorb water, the top of the setting-off net is supported and limited by the rectangular setting-off strips, the rectangular setting-off strips are buckled with the cultivating tray through the clamping seats I arranged at four corners, the integral net-shaped setting-off assembly is limited and fixed, after the seedling cultivation is completed, the clamping seats I are buckled, lifting handles arranged on two sides of the rectangular lining strip are lifted, the net-shaped lining assembly is integrally taken out, the cultivated seedlings and culture matrixes are taken out, the damage to the seedlings caused by the direct contact of the seedling taking out is avoided, the seedlings are further protected during taking out, when the seedlings are planted, the roots wrap the culture matrixes due to the water-oriented property of the roots, the seedlings are taken out from the lining net and planted, the complicated step of taking out the seedlings in the prior art is omitted, and the labor force is prevented from being enhanced;

In order to further improve efficiency improvement and the convenience of growing seedlings and taking, through being provided with the handle at cultivation tray both sides surface symmetry, take whole cultivation tray through the handle, can realize taking a plurality of growing seedlings, place at appointed planting area, plant at single the growing seedlings of taking, improved the efficiency of growing seedlings and planting, avoided the growing seedlings that single plant was placed simultaneously, cause the mixed and disorderly of planting place, destroy the condition problem of growing seedlings, improved the survival rate of growing seedlings and planting.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the cultivating tray of the present utility model;

FIG. 3 is a schematic view of a support frame assembly according to the present utility model;

fig. 4 is a schematic view of the structure of the incubation tray of fig. 2 a according to the present utility model;

FIG. 5 is a schematic view of the mesh susceptor assembly of FIG. 1 according to the present utility model;

FIG. 6 is a schematic structural view of the multi-layered seedling raising device of the present utility model;

FIG. 7 is a schematic view of the limiting groove in FIG. 6 according to the present utility model;

In the figure: the cultivation tray comprises a support frame assembly 1, a cultivation tray 2, a net-shaped lining component 3, a seedling cup 4, a rectangular lining strip 5, a carrying handle 6, a lining net 7, a first clamping seat 11, a first ventilation hole 12, a second ventilation hole 13, a second clamping seat 14, a transverse supporting rod 15, a longitudinal supporting rod 16, a first fixing rod 17, a first supporting plate 21, a protrusion 22, a plug cylinder 23, a limiting groove 24 and a handle 25.

Description of the embodiments

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 7:

As shown in fig. 1 and 2, the utility model relates to a melon vegetable high-efficiency seedling raising device, which comprises a support frame assembly 1, a cultivation tray 2 and a net-shaped setting element 3, wherein a plurality of cultivation trays 2 are arranged on the upper part of the support frame assembly 1, a plurality of seedling cups 4 are evenly molded on the surface of the cultivation tray 2, the net-shaped setting element 3 is paved inside the seedling cups 4, the periphery of the top of the net-shaped setting element 3 is buckled with the cultivation tray 2, and cultivation matrixes and matrixes are arranged inside the net-shaped setting element 3 and used for cultivating seedlings.

The method comprises the following steps: for batch cultivation and seedling raising, a plurality of cultivation trays 2 are arranged at the upper part of the support frame assembly 1 for the same cultivation, a container seedling cup 4 for cultivation and seedling raising is arranged on the cultivation trays 2, and a net-shaped setting assembly 3 which can be conveniently taken is arranged in the seedling cup 4, so that when the seedlings are taken out, the seedlings can be conveniently and rapidly taken out for planting, the step of taking out the seedlings in a tired mode such as manual or tool digging is omitted, the protection and the taking out of the seedlings are realized, the survival rate of subsequent planting is improved, and the occurrence of diseases is reduced; the cultivation tray 2 is placed on the upper portion of the support frame assembly 1, contact with water or soil is isolated, the seedling root system is prevented from being watery, and convenience in planting and taking and protection of the root system are facilitated.

Preferably, as shown in fig. 1 and 5, in order to achieve the purposes of rapid and convenient taking of the whole seedling, and high labor intensity in seedling cultivation, the net-shaped supporting component 3 comprises a rectangular supporting strip 5, a lifting handle 6, a supporting net 7 and a clamping seat I11, wherein the rectangular supporting strip 5, the lifting handle 6 and the supporting net 7 are made of rubber materials preferentially, so that the advantage of repeated utilization is achieved, the rectangular supporting strip 5 is placed at the edge of the top of the seedling cup 4, the supporting net 7 is integrally formed at the bottom of the rectangular supporting strip 5, the substrate is placed in the supporting net 7 to cultivate the seedling, the clamping seat I11 is arranged at four corners of the rectangular supporting strip 5, the lifting handle 6 is symmetrically arranged on two opposite sides of the rectangular supporting strip 5, and the lifting handle 6 and the rectangular supporting strip 5 are integrally molded.

The method comprises the following steps: the setting-off net 7 is attached to the inside of the seedling cup 4, a culture substrate is placed in the seedling cup 4 for cultivating and raising seedlings, a low-pressure spraying and pouring long-distance mode is adopted for pouring, the substrate is not lost, the seedling seeds can fully absorb moisture, the top of the setting-off net 7 is supported and limited through the rectangular setting-off strips 5, the rectangular setting-off strips 5 are buckled with the cultivating tray 2 through the clamping seats 11 arranged at four corners, the integral net-shaped setting-off assembly 3 is limited and fixed, after the seedling cultivation is completed, the clamping seats 11 are buckled, the lifting handles 6 arranged at two sides of the rectangular setting-off strips 5 are lifted, the net-shaped setting-off assembly 3 is integrally taken out, the seedling cultivation and the culture substrate are wrapped through the setting-off net-off strips 7, the seedling cultivation and the culture substrate are not scattered, the seedling cultivation and the culture substrate are integrally taken out, the damage to the seedling is avoided, and the seedling cultivation is caused by direct contact is avoided, and the survival rate of seedling cultivation is improved; when planting, because the water to of seedling root system, the root system can coil the parcel culture medium, takes off seedling from the setting off net 7 and plants, has saved prior art's loaded down with trivial details step and has taken seedling, avoids appearing the emergence of labour reinforcing.

In at least one embodiment, as shown in fig. 4, in order to realize aeration of the seedling root system and facilitate good growth, the axial side surface of the seedling cup 4 is uniformly provided with the first air holes 12, and the bottom of the seedling cup 4 is uniformly provided with the second air holes 13.

In at least one embodiment, as shown in fig. 4, in order to slow down the water loss, the density of the second air holes 13 is higher than that of the first air holes 12, and the aperture of the first air holes 12 is larger than that of the second air holes 13, so that the maximum moisture retention at the bottom of the seedling cup 4 is realized, the time for providing the root system to absorb the water is long, and the cultivation survival rate is improved.

In at least one embodiment, as shown in fig. 5, in order to realize that the mesh-shaped susceptor assembly 3 is convenient to take quickly, meanwhile, the mesh-shaped susceptor assembly 3 is convenient to place in the seedling cup 4, the second clamping seat 14 is arranged on the surface of the cultivation tray 2 at four corners of the seedling cup 4, the spacing placement effect on the mesh-shaped susceptor assembly 3 in the seedling raising process is realized through the fastening installation mode of the first clamping seat 11 and the second clamping seat 14, and after the seedling raising is completed, the first clamping seat 11 and the second clamping seat 14 are opened to be fastened to integrally take out the mesh-shaped susceptor assembly 3, so that the seedling raising can be quickly and conveniently taken out, and the planting of the seedling raising is convenient.

Preferably, as shown in fig. 3, in order to increase the batch cultivation of the seedlings, the support frame assembly 1 comprises two transverse support rods 15 and a plurality of longitudinal support rods 16, a plurality of first fixing rods 17 are arranged at the bottom of the transverse support rods 15, support plates 21 are symmetrically arranged on two opposite side surfaces of the first fixing rods 17, a plurality of longitudinal support rods 16 are arranged between the transverse support rods 15, the plurality of longitudinal support rods 16 are arranged in parallel, and a cultivation tray 2 is placed between two adjacent longitudinal support rods 16.

The method comprises the following steps: a plurality of longitudinal support rods 16 are arranged between the two transverse support rods 15, a cultivation tray 2 is placed between every two adjacent longitudinal support rods 16, mass cultivation and seedling raising are achieved, a first fixing rod 17 is arranged at the bottom of each transverse support rod 15 so as to support the whole cultivation device, and the supporting effect of the first fixing rod 17 is increased through the arrangement of the first supporting plates 21.

In at least one embodiment, as shown in fig. 3, in order to limit the position of the cultivation tray 2 placed on the support frame assembly 1, the cultivation order is improved, two longitudinal support rods 16 adjacent to each other and transverse support rods 15 on two sides of the two longitudinal support rods are surrounded to form a placement frame, protrusions 22 are uniformly arranged on the circumferential surface of the top of the placement frame, grooves matched with the protrusions 22 are formed in the circumferential edge of the bottom of the cultivation tray 2, and the fixing of the placement position of the cultivation tray 2 is improved through the limiting effect of the protrusions 22 and the grooves (not shown in the figure), so that the cultivation order is improved.

In at least one embodiment, as shown in fig. 6 and 7, in order to increase the batch seedling cultivation, the surfaces of the transverse supporting rods 15 on two sides of the cultivation tray 2 are symmetrically provided with inserting cylinders 23, two opposite side surfaces of the inserting cylinders 23 are symmetrically provided with limiting grooves 24, the limiting grooves 24 are inserted with the first supporting plate 21, the multilayer arrangement of the supporting frame assembly 1 is realized, the occupied space is saved, and meanwhile the batch seedling cultivation quantity is improved.

Preferably, as shown in fig. 2, in order to realize batch seedling raising by taking, handles 25 are symmetrically arranged on two opposite side surfaces of the cultivation tray 2, the whole cultivation tray 2 is taken by the handles 25, a plurality of seedlings can be taken, the seedlings are placed in a designated planting area, the seedling raising and planting efficiency is improved by taking the seedlings singly, meanwhile, the problem that the seedling raising is carried out by placing single plants, and the situation that the seedling raising is disordered and damaged in a planting field is solved, and the survival rate of seedling raising and planting is improved.

The examples of the present utility model are intended to be illustrative only and not to limit the scope of the claims, and other substantially equivalent substitutions will occur to those skilled in the art and are intended to be within the scope of the present utility model.

Claims (9)

1. The utility model provides a melon vegetables high-efficient device of growing seedlings, a serial communication port, including support frame subassembly (1), cultivate tray (2), netted susceptor assembly (3), the upper portion of support frame subassembly (1) is provided with a plurality of and cultivates tray (2), cultivate the even plastic injection in surface of tray (2) and have a plurality of seedling cup (4), the inside netted susceptor assembly (3) of having laid of seedling cup (4), netted susceptor assembly (3) top all around with cultivate tray (2) lock joint, netted susceptor assembly (3) inside is provided with cultivates matrix, matrix are used for cultivating the seedling.

2. The melon vegetables high-efficient seedling raising device according to claim 1, wherein, netted lining support subassembly (3) includes rectangle lining strip (5), carrying handle (6), lining net (7), cassette one (11), rectangle lining strip (5) are placed in seedling cup (4) top edge department, the bottom integrated into one piece of rectangle lining strip (5) is provided with lining net (7), the inside matrix that holds of lining net (7) cultivates the seedling, four corners department of rectangle lining strip (5) is provided with cassette one (11), the bilateral symmetry that rectangle lining strip (5) are relative is provided with carrying handle (6), carrying handle (6) and rectangle lining strip (5) are integrative to mould annotate the setting.

3. The melon vegetable efficient seedling raising device according to claim 1 is characterized in that ventilation holes I (12) are uniformly formed in the axial side surface of a seedling cup (4), and ventilation holes II (13) are uniformly formed in the bottom of the seedling cup (4).

4. A melon vegetable high-efficiency seedling raising device according to claim 3, wherein the density of the second air holes (13) is higher than that of the first air holes (12), and the aperture of the first air holes (12) is larger than that of the second air holes (13).

5. The melon vegetable high-efficiency seedling raising device according to claim 2 is characterized in that a second clamping seat (14) is arranged on the surface of the cultivating tray (2) at four corners of the seedling cup (4), and a first clamping seat (11) is buckled with the second clamping seat (14).

6. The melon vegetables high-efficient seedling raising device according to claim 1, wherein the support frame assembly (1) comprises two transverse support rods (15) and a plurality of longitudinal support rods (16), a plurality of first fixing rods (17) are arranged at the bottoms of the transverse support rods (15), support plates (21) are symmetrically arranged on two opposite side surfaces of the first fixing rods (17), a plurality of longitudinal support rods (16) are arranged between the transverse support rods (15), the plurality of longitudinal support rods (16) are arranged in parallel, and a cultivation tray (2) is placed between two longitudinal support rods (16) adjacent to each other.

7. The melon vegetable efficient seedling raising device according to claim 6 is characterized in that two longitudinal support rods (16) adjacent to each other and transverse support rods (15) on two sides of the two longitudinal support rods are surrounded to form a placing frame, protrusions (22) are uniformly arranged on the circumferential surface of the top of the placing frame, and grooves matched with the protrusions (22) in clamping position are formed in the circumferential edge of the bottom of the cultivating tray (2).

8. The melon vegetable efficient seedling raising device according to claim 6 is characterized in that the surfaces of the transverse supporting rods (15) positioned on two sides of the cultivation tray (2) are symmetrically provided with inserting cylinders (23), two opposite side surfaces of the inserting cylinders (23) are symmetrically provided with limiting grooves (24), and the limiting grooves (24) are inserted into the first supporting plate (21).

9. The efficient seedling raising device for melon vegetables according to claim 1 is characterized in that handles (25) are symmetrically arranged on two opposite side surfaces of the cultivation tray (2).