CN210470438U - Water-saving seedling culture hole tray - Google Patents

Abstract

The utility model discloses a water-saving seedling raising plug tray, which comprises a plug tray body, wherein a plurality of rows of seedling raising holes are arranged on the plug tray body, an upward convex V-shaped water guide slope is arranged between two adjacent rows of seedling raising holes, and the slope bottoms on two sides of the water guide slope are respectively close to the two rows of seedling raising holes; fixing holes are formed in the periphery of the plug body, long-strip-shaped connecting strips are buckled on the fixing holes, and two adjacent plug bodies can be fixed through the connecting strips; a hollowed seedling cup is fixed below the seedling hole, a seedling loading sleeve is arranged in the seedling cup, an air hole is formed in the bottom of the seedling loading sleeve, and a fixing buckle is arranged at the top of the seedling loading sleeve. The seedling culture hole tray is provided with the water guide slope, and when watering is carried out, water outside the seedling culture hole can flow down along the water guide slope and enter the seedling culture hole, so that the utilization rate of water resources is improved, and the production cost is reduced.

Description

Water-saving seedling culture hole tray

Technical Field

The utility model belongs to the technical field of agricultural equipment, concretely relates to water-saving seedling culture hole tray.

Background

The hole tray, also called seedling tray, is an important apparatus used in the industrial seedling production process. No matter flowers or vegetables, plug seedling is the most fundamental change of modern horticulture, and provides guarantee for quick and mass production. The material for making the tray is typically polystyrene foam, polystyrene, polyvinyl chloride, polypropylene, etc. The manufacturing method is blow molding and injection molding. The common vegetable and ornamental plant seedling raising tray is made of polystyrene material.

The seedling raising tray is formed by integrating a base tray and a hole. The holes are arranged on the basal disc, the seedling substrate is placed in each hole, then a certain amount of seeds are placed in each hole, and after the seeds grow into seedling bodies in the holes, the seedlings are manually transplanted into planting pots or other fields or containers with large cultivation space. The cultivation method can ensure that the seedlings do not lift, damage roots and lose water, and greatly improves the survival rate of transplanting.

The area of a single seedling raising hole tray is small, during factory operation, a plurality of seedling raising hole trays are often spliced together for raising seedlings, in order to promote seedling growth, the seedling raising process needs to be watered in time, when watering is carried out, part of water can permeate into a matrix through hole holes to be absorbed by the seedlings, the other part of water is remained on the seedling raising tray at the periphery of the hole holes, the part of water cannot be absorbed by the seedlings, and finally the water can evaporate and disappear on the seedling raising tray, so that waste of water resources is caused. When the industrialized large-area seedlings grow, the water wasted by the mode accounts for 10-30% of the total watering amount, and the improvement of the utilization rate of water resources is an important guarantee for sustainable development and high-quality development at the present day when the water resources are more and more deficient.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water-saving seedling culture hole tray, which aims to solve the problems of low water resource utilization rate and more waste in the existing seedling culture operation process;

therefore, the utility model adopts the following technical scheme:

a water-saving seedling raising plug tray comprises a plug tray body, wherein a plurality of rows of seedling raising holes are formed in the plug tray body, an upward-convex V-shaped water guide slope is arranged between two adjacent rows of seedling raising holes, and slope bottoms on two sides of the water guide slope are respectively close to the two rows of seedling raising holes; fixing holes are formed in the periphery of the plug body, long-strip-shaped connecting strips are buckled on the fixing holes, and two adjacent plug bodies can be fixed through the connecting strips;

a hollowed seedling cup is fixed below the seedling hole, a seedling loading sleeve is arranged in the seedling cup, an air hole is formed in the bottom of the seedling loading sleeve, and a fixing buckle is arranged at the top of the seedling loading sleeve.

Furthermore, the connection part of the seedling hole and the seedling cup is in a counter bore shape, and the upper end of the seedling loading sleeve can be embedded in the counter bore.

Furthermore, be equipped with two rows of bolt post on the connecting strip, and the diameter of bolt post equals the diameter of fixed orifices, distance between the two rows of bolt post equals the distance between the fixed orifices on two adjacent cave dish bodies, and the distance between two adjacent bolt posts on the single row equals the distance between two adjacent fixed orifices.

Furthermore, the plug body, the seedling cup, the seedling loading sleeve and the connecting strip are all made of degradable plastic materials.

The beneficial effects of the utility model reside in that:

1. the seedling culture hole tray is provided with the water guide slope, and water outside the seedling culture hole flows down along the water guide slope and enters the seedling culture hole during watering operation, so that the utilization rate of water resources is improved, and the production cost is reduced;

2. two adjacent seedling raising hole trays can be spliced and fixed by using the connecting strip, the connecting strip is convenient to mount and dismount and easy to operate, the connecting strip can be repeatedly used, and resources are saved;

3. the seedling cup adopts a hollow design, so that the production and purchase cost of the seedling tray is greatly reduced, the consumption of raw materials in the production process is reduced, and the production cost is further reduced.

Drawings

FIG. 1 is a partial sectional view of a seedling raising tray;

FIG. 2 is a partial cross-sectional view of the seedling tray with the seedling carrying case removed;

FIG. 3 is a top view of the structure of the seedling raising tray;

FIG. 4 is a top view of the structure when adjacent seedling raising trays are spliced;

FIG. 5 is a schematic view showing the structure of a seedling cup;

FIG. 6 is a front view of the structure of the connecting strip;

fig. 7 is a schematic view of the usage state of the present invention;

in the figure: 1-plug body, 2-seedling hole, 3-seedling cup, 4-water guide slope, 5-fixing hole, 6-seedling loading sleeve, 7-air hole, 8-fixing button, 9-connecting strip, 10-latch post, 11-supporting block and 12-wire netting.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

as shown in fig. 1 to 6, a water-saving seedling raising plug tray comprises a plug tray body 1, wherein a plurality of rows of seedling raising holes 2 are formed in the plug tray body 1, a water guide slope 4 protruding upwards and in a V shape is arranged between two adjacent rows of seedling raising holes 2, the slope bottoms on two sides of the water guide slope 4 are respectively close to the two rows of seedling raising holes 2, and the height of the water guide slope 4 is 5-15 mm. The periphery of the plug body 1 is provided with fixing holes 5, the distances between the fixing holes 5 are equal, and the distances between the fixing holes 5 on each side and the side edge of the plug body 1 are equal. Be equipped with the connecting strip 9 of rectangular shape on the fixed orifices 5, be equipped with two rows of bolt posts 10 on the connecting strip 9, and the diameter of bolt post 10 equals the diameter of fixed orifices 5, and the width of two rows of bolt posts 10 equals the distance between the fixed orifices 5 on two adjacent cave dish bodies 1, and the distance between two adjacent bolt posts 10 equals the distance between two adjacent fixed orifices 5, and two adjacent cave dish bodies 1 are pegged graft fixedly through connecting strip 9.

The hollow seedling cup 3 is fixed below the seedling hole 2, the seedling cup 3 is internally provided with a seedling loading sleeve 6, the bottom of the seedling loading sleeve 6 is provided with an air hole 7, and the top of the seedling loading sleeve 6 is provided with a fixing buckle 8 for pulling the seedling loading sleeve 6. In addition, the connection part of the seedling hole 2 and the seedling cup 3 is in a counter bore shape, and the seedling loading sleeve 6 can be embedded in the counter bore. The plug body 1, the seedling cup 3, the seedling loading sleeve 6 and the connecting strip 9 are made of degradable plastic materials.

In order to facilitate the operation, the seedling raising plate body can be set to be square, and the fixing holes 5 on the periphery of the seedling raising plate body can be set to be of the same specification. Like this connecting strip 9 also can set up to unified model, and arbitrary connecting strip 9 all can be used for connecting and educate seedling tray body in the in-service use makes things convenient for the on-the-spot concatenation greatly.

As shown in figure 7, when the seedling raising plug tray is used, the supporting blocks 11 are arranged on the ground, the horizontal wire netting 12 is arranged on the supporting blocks 11, the plug tray body 1 is arranged on the wire netting 12, common bricks or prefabricated cement blocks can be used as the supporting blocks 11, and the setting density of the prefabricated cement blocks can be improved in order to prevent the net plate 12 from being pressed and deformed by the seedling raising plug tray. Can separate plug body 1 with soil like this, prevent that the plant diseases and insect pests in the soil from influencing seedling growth.

After the substrate and the crop seeds are added into the seedling raising hole trays, the seedling raising hole trays are connected into a whole by using the connecting strips 9 and are placed on the net plate 12. When watering, the water guide slope 4 can guide the water outside the seedling growing hole 2 into the seedling growing loading sleeve 6, thereby improving the utilization rate of water resources. When the seedling grows up and waits for transplanting, hold fixed knot 8 and take out seedling growing loading cover 6 from growing seedlings cup 4, pour out the seedling from seedling growing loading cover 6 and can plant.

It should be noted that the above are only some embodiments of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (4)

1. A water-saving seedling raising hole tray is characterized by comprising a hole tray body (1), wherein a plurality of rows of seedling raising holes (2) are formed in the hole tray body (1), an upward-protruding V-shaped water guide slope (4) is arranged between two adjacent rows of seedling raising holes (2), and slope bottoms on two sides of the water guide slope (4) are respectively close to the two rows of seedling raising holes (2); fixing holes (5) are formed in the periphery of the plug body (1), strip-shaped connecting strips (9) are buckled on the fixing holes (5), and two adjacent plug bodies (1) can be fixed through the connecting strips (9);

the seedling raising device is characterized in that a hollowed seedling raising cup (3) is fixed below the seedling raising hole (2), a seedling raising loading sleeve (6) is arranged in the seedling raising cup (3), an air hole (7) is formed in the bottom of the seedling raising loading sleeve (6), and a fixing buckle (8) is arranged at the top of the seedling raising loading sleeve.

2. A water-saving seedling raising tray according to claim 1, wherein the connection between the seedling raising hole (2) and the seedling raising cup (3) is in the shape of a counter bore, and the upper end of the seedling raising loading sleeve (6) can be embedded in the counter bore.

3. A water-saving seedling tray according to claim 1, wherein the connecting strip (9) is provided with two rows of latch columns (10), the diameter of each latch column (10) is equal to the diameter of each fixing hole (5), the distance between two rows of latch columns (10) is equal to the distance between the fixing holes (5) of two adjacent tray bodies (1), and the distance between two adjacent latch columns (10) on a single row is equal to the distance between two adjacent fixing holes (5).

4. A water-saving seedling culture tray according to claim 1, wherein the tray body (1), the seedling culture cup (3), the seedling culture loading sleeve (6) and the connecting strip (9) are all made of degradable plastic materials.

Images