CN215380201U - A disk body structure for strawberry seedling is grown seedlings - Google Patents

Abstract

The utility model relates to a strawberry seedling culture utensil field specifically is a disk body structure for strawberry seedling culture, including cave dish main part and the cave of growing seedlings, there are a plurality ofly in the cave dish main part the cave of growing seedlings, grow seedlings and seted up a plurality of ventilative apertures to the side of the cave, a hole and a plurality of air vent have been seted up in the middle of the bottom in the cave of growing seedlings, fixed two supporting legs that are provided with about the cave bottom of growing seedlings. Above-mentioned structure has increased the gas permeability that is used for the disk body structure that strawberry seedling was grown seedlings.

Description

A disk body structure for strawberry seedling is grown seedlings

Technical Field

The utility model relates to a strawberry planting equipment field specifically is a disk body structure for strawberry seedling is grown seedlings.

Background

The plug seedling of the strawberries is a new container seedling method adopted in some countries in recent years, the plug seedling of the strawberries can improve the quality of seedlings, and the goals of high yield, disease resistance and early marketing are achieved, so that the production benefit of the strawberries is increased. The seedling is grown in a plug tray, one plug is used for sowing, one plug is used for growing seedlings, each seedling has an independent space, the moisture and the nutrient do not compete with each other, the seedling growing speed is high, the plant diseases, insect pests and weeds are few, the root system is complete, the transplanting is convenient, and the root is not damaged by field planting. The common planting means of the plug seedlings is as follows: placing sterilized mixed matrix such as peat soil, nutrient soil, vermiculite, and perlite powder into the plug, inserting the trimmed seedling into the matrix, and burying deeply therein.

The conventional 50-hole plug tray is generally used for strawberry plug tray seedling culture, the diameter of each hole is about 5 cm, the depth of each hole is about 6 cm, the sealing performance of each plug tray is high, the strawberry survival rate is reduced due to poor air permeability of a matrix, the production cost of seedlings is high, the survival rate is low, and the popularization and application of the strawberry plug tray seedling culture technology are severely restricted. Therefore, it is necessary to design and develop a tray body structure for raising strawberry seedlings, which has strong air permeability.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a disk body structure for strawberry seedling is grown seedlings to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the present application provides the following technical solutions:

a disk body structure for strawberry seedling is grown seedlings, includes cave dish main part and seedling growing cave. A plurality of seedling raising holes are distributed on the plug body in a rectangular array mode, a plurality of small air holes are formed in the side faces of the seedling raising holes, and a water leakage hole and a plurality of air holes are formed in the bottom end of each seedling raising hole. Above-mentioned structure has increased the gas permeability that is used for the disk body structure that strawberry seedling was grown seedlings.

As a further aspect of the present application: the water pipe standing groove has been seted up to cave dish main part up end, and the water pipe standing groove is located between two adjacent seedling culture caves that set up along cave dish main part width direction, and the water pipe standing groove sets up along cave dish main part length direction, and the transversal semicircle of personally submitting of water pipe standing groove. The structure is used for placing the water dripping pipe, and the semicircular water pipe placing groove can better accord with the shape of the water dripping pipe, so that the water dripping pipe is not easy to fall off when being placed on the hole tray.

As a still further aspect of the present application: the joint of the water pipe placing groove and the seedling growing hole is provided with a diversion groove, and the cross section of the diversion groove is semicircular. The structure can make the water in the drip pipe flow into the water collecting tank quickly.

As a still further aspect of the present application: the plurality of small air holes are uniformly arranged on the upper half parts of the four side surfaces of the hole seedling. The structure can increase the air permeability of the seedling raising holes.

As a still further aspect of the present application: the water leakage hole is arranged in the middle of the bottom end of the seedling raising hole, and the plurality of vent holes are uniformly distributed along the periphery of one water leakage hole. The seedling raising holes with the structure can drain water and ventilate.

As a still further aspect of the present application: the bottom in the seedling raising hole is covered with a filter membrane net. The above structure can prevent the substrate loaded in the tray from leaking out of the cavity at the bottom.

As a still further aspect of the present application: the water collecting tank is arranged at the joint of the hole seedling hole and the hole tray main body. The structure can lead the water in the drip pipe into the seedling raising holes.

As a still further aspect of the present application: the height of one side of the water collecting groove far away from the water guiding groove is lower than the upper end surface of the plug tray main body, the height of one side of the water collecting groove near the water guiding groove is equal to the height of the upper end surface of the plug tray main body, and the cross section of the water collecting groove is arc-shaped. Above-mentioned structure makes rivers can not overflow on the cave dish main part up end, and the water catch bowl cross section also can reduce rivers frictional force for glossy arc structure, increases the velocity of water flow.

As a still further aspect of the present application: supporting legs are fixedly arranged at the bottoms of the hole holes of the seedlings. Above-mentioned structure is used for supporting the disk body structure that is used for strawberry seedling to grow seedlings for the disk body structure that is used for strawberry seedling to grow seedlings is difficult for empting.

Compared with the prior art, the beneficial effects of this application are:

1. offer the water pipe standing groove in the cave dish main part to connect the water catch bowl on the seedling growing cave and the water pipe standing groove in the cave dish main part with the diversion channel, make the water of placing in the drip pipe on the water pipe standing groove can flow in the water catch bowl through the diversion channel, can not cause the water source extravagant.

2. The height that the diversion channel was kept away from to the water catch bowl is lower than cave dish main part up end, and the height that the water catch bowl is close to one side of diversion channel is as high as cave dish main part up end, and the water catch bowl of design like this fills up the water catch bowl in rivers and when overflowing soon, thereby water can flow to that one side that highly hangs down at first will flow into the hole of growing seedlings and can not flow out to the cave dish main part up end from that one side that is close to the diversion channel on, can not cause the waste of water source like this.

3. The upper half parts of the four side surfaces of the seedling raising hole are uniformly provided with a plurality of small air holes which are small enough not to allow the matrix filled in the seedling raising hole to leak out, and the air can enter the seedling raising hole to realize the air-permeable effect. The lower half part of the seedling raising hole is not provided with a small air vent hole, so that the water content of the matrix can be guaranteed, the water loss is prevented, and the water content of the soil is also guaranteed under the condition that the air permeability of the seedling raising hole is guaranteed.

4. A water leakage hole and a plurality of air holes are formed in the middle of the bottom end of the seedling raising hole, when enough water is contained in the seedling raising hole matrix, the water leakage hole is formed in the bottom end of the seedling raising hole in order to prevent the strawberry seedlings from rotting roots, and redundant water can flow out from the water leakage hole. The air holes arranged around the water leakage holes can ensure the air permeability of the bottom of the substrate when no water flows out from the bottom of the substrate.

Drawings

Fig. 1 is a structural schematic diagram of a tray body structure for strawberry seedling raising;

fig. 2 is a structural schematic diagram of the bottom of a plug tray in a tray body structure for strawberry seedling culture.

In the figure: 1. a plug body; 2. seedling raising holes; 21. small air holes; 22. a water leakage hole; 23. a vent hole; 3. a water pipe placing groove; 31. a water diversion groove; 4. a water collection tank; 5. and (5) supporting legs.

Detailed Description

To make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to examples and drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present application type and are not used as limitations of the present application.

Referring to fig. 1, the present application is a tray body structure for strawberry seedling raising, including a plug tray main body 1 and a raising seedling hole 2. Cave dish main part 1 is the rectangle, and 1 thickness of cave dish main part is 5 ~ 6 millimeters, and integrated into one piece has a plurality of caves 2 of growing seedlings on cave dish main part 1, and a plurality of caves 2 of growing seedlings are the rectangular array and distribute in the cave dish main part, and 2 wall thickness in the cave of growing seedlings are 1 ~ 2 millimeters, and fixed two supporting legs 5 that are provided with about 2 bottoms in the cave of growing seedlings, 5 1 centimetre wide 5 millimeters of supporting leg length. The opening of the seedling raising hole 2 is rectangular, and the length of the upper bottom of the seedling raising hole 2 is larger than that of the lower bottom of the seedling raising hole, so that the seedling raising hole 2 has the structural characteristic of being wide at the upper part and narrow at the lower part, the seedling raising can be facilitated, the implementation space in the seedling raising process is enlarged, and the problem that roots of strawberry seedlings are damaged when the seedlings are raised is effectively solved.

Referring to fig. 1, a water pipe placing groove 3 is provided on the upper end surface of the plug body 1, and the water pipe placing groove 3 is located between two adjacent seedling raising holes 2 arranged along the width direction of the plug body 1. Water pipe standing groove 3 sets up along 1 length direction of cave dish main part, 3 cross sections of water pipe standing groove are semi-circular, water pipe standing groove 3 is used for placing the drip pipe, 2 cave mouths of seedling culture cave department has seted up the cross section and is curved water catch bowl 4, water pipe standing groove 3 is provided with the cross section for semicircular diversion channel 31 with the junction of water catch bowl 4, the height that water catch bowl 4 kept away from one side of diversion channel 31 is lower than 1 up end of cave dish main part, height and cave dish main part 1 up end height that water catch bowl 4 is close to one side of diversion channel 31. The water in the drip pipe flows into the water guiding groove 31 through the drip hole, then flows into the water collecting groove 4 with the semicircular cross section on the seedling raising hole 2 through the water guiding groove 31, and finally flows into the seedling raising hole 2. Make this a disk body structure diversion smoothness for strawberry seedling does not cause the waste of water source.

Referring to fig. 1, a plurality of circular small ventilation holes 21 with the diameter of 1-1.5 mm are distributed in an array on the side surface of the seedling raising hole 2, the interval of each small ventilation hole 21 is 1 mm, and the small ventilation holes 21 are uniformly distributed on the upper half parts of the four side surfaces of the seedling raising hole 2. The substrate in the seedling raising hole 2 can not leak out from the small air holes 21 while the air permeability of the seedling raising hole 2 is enhanced.

Referring to fig. 2, 1 hole 23 and 4 air vents 24 that leak have been seted up to the bottom of seedling culture cave 2, and the hole 23 that leaks is seted up in the middle of the bottom of seedling culture cave 2, and 4 air vents 24 are along 1 hole 23 periphery evenly distributed that leaks, and the diameter of air vent 24 is less than the diameter that leaks hole 23 and can increase the drainage effect of seedling culture cave 2 so for the difficult mashed root of strawberry seedling.

Referring to fig. 2, the bottom of the seedling raising cavity 2 is covered with a filter membrane net to prevent the matrix from flowing out of the water leakage holes and the air vents at the bottom of the seedling raising cavity 2.

The functional principle of the present application can be illustrated by the following operation modes:

the application provides a disk body structure for strawberry seedling grows seedlings spreads the matrix and plants good strawberry seedling after, place the drip pipe in water pipe standing groove 3 department, water in the drip pipe flows into diversion trench 31 and every drip hole through the drip hole and supplies water to adjacent two diversion trenches 31, then flow in through diversion trench 31 and set up in the water catch bowl 4 on the cave of growing seedlings 2, because one side that water catch bowl 4 both sides are close to diversion trench 31 is higher than the one side of keeping away from diversion trench 31, so treat to hold full water in water catch bowl 4 after, water in the water catch bowl 4 can flow from that one side of height-low, can be even flow in the cave of growing seedlings 2, can not cause and grow seedlings in the cave 2 near diversion trench 31 one side matrix moisture content height, keep away from the phenomenon that the matrix moisture content of diversion trench 31 one side is few.

When the water in the matrix is too much, the redundant water can leak from the water leakage holes 22 at the bottom of the seedling raising holes 2, the root rot condition is avoided, and the filter screen covered at the bottom of the seedling raising holes 2 can also prevent the matrix from leaking from the water leakage holes 22. When the water in the substrate does not overflow from the bottom end, the water leakage holes 22 and the air vents 23 at the bottom of the seedling raising holes 2 play a role in ventilation.

The upper half of 2 sides in seedling growing hole is covered with ventilative aperture 31, and these ventilative apertures 31 are little enough, can not spill over when water flow through these ventilative apertures 31, and when not having the rivers, these ventilative apertures 31 can let the wind pass the matrix, play the effect of ventilation, and seedling growing hole 2 the latter half is sealed up, has also guaranteed the moisture content of matrix when guaranteeing the matrix gas permeability.

The above description is only for the preferred embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present application, and equivalent alternatives or modifications according to the technical solutions and the application concepts of the present application, which are within the technical scope of the present application, should be covered by the present application.

Claims (8)

1. A tray body structure for strawberry seedling culture is characterized by comprising a plug tray main body (1) and seedling culture holes (2);

the plug tray main body (1) is provided with a plurality of seedling raising holes (2), the side surfaces of the seedling raising holes (2) are provided with a plurality of small air holes (21), and the bottom ends of the seedling raising holes (2) are provided with a water leakage hole (22) and a plurality of air holes (23);

water pipe standing groove (3) have been seted up to cave dish main part (1) up end, water pipe standing groove (3) are located along two adjacent that cave dish main part (1) width direction set up between seedling raising cave (2), water pipe standing groove (3) are followed cave dish main part (1) length direction sets up.

2. A tray body structure for strawberry seedling cultivation according to claim 1, wherein a water diversion groove (31) is arranged at the joint of the water pipe placing groove (3) and the seedling cultivation hole (2).

3. A tray body structure for raising strawberry seedlings according to claim 1, wherein the plurality of small air holes (21) are uniformly formed on four sides of the seedling raising hole (2); the small air holes (21) are arranged on the upper half part of the side surface of the seedling raising hole (2).

4. A tray body structure for raising strawberry seedlings according to claim 1, wherein the water leakage hole (22) is formed in the middle of the bottom end of the seedling raising hole (2), and the plurality of vent holes (23) are uniformly distributed along the periphery of the water leakage hole (22).

5. A tray body structure for raising strawberry seedlings according to claim 1, wherein the bottom of the seedling raising cavity (2) is covered with a filter membrane net.

6. A tray body structure for strawberry seedling cultivation according to claim 2, wherein a water collecting groove (4) is formed at the opening of the seedling cultivation hole (2).

7. A tray body structure for raising strawberry seedlings according to claim 6, wherein the height of the side of the water collecting tank (4) far away from the water guiding groove (31) is lower than the upper end face of the plug body (1), and the height of the side of the water collecting tank (4) near the water guiding groove (31) is equal to the upper end face of the plug body (1).

8. A tray body structure for raising seedlings of strawberry seedlings according to claim 1, wherein the bottom of the seedling raising holes (2) is provided with supporting legs (5).

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