NL8401298A - Nursery plant seed germination pots prodn. - by pressing inorganic granulate mixed with proportion of bonding agent into desired shape - Google Patents

Abstract

The method is intended for producing a seed pot to germinate plant seeds in a nursery. Granular inorganic material, pref. rock wool granulate, is mixed in a pre-determined ratio with a bonding agent, pref. a water-sol. polymer, and the mixt. is pressed into the desired shape to form the pot. This shape is pref. cylindrical with at least one (conical) recess in its upper surface. A number of such pots may be placed in recesses in a carrier and seeds placed in the recesses after which the carrier with pots is covered with a layer to check evaporation and the layer moistened.

Description

Hw / Mv / 1 Adee-Agro

Method for manufacturing a seed pot, seed pot and method for germinating seeds using a seed pot

The invention relates to a method for manufacturing a seed pot for plant nurseries.

Plant pots 5 are already used in plant nurseries, in which seeds are placed which can germinate under ideal conditions, which seed pots can have a specific shape and size depending on the application. The usual seed pots are made of high-quality potting soil, which potting soil is preferably pre-sterilized. Nevertheless, disadvantages remain with such sprouting pots, namely that the potting soil is a natural product, the composition of which and the development of germs cannot be permanently controlled.

The object of the invention is to provide a method for manufacturing seed pots or to provide the seed pot itself, which do not have the above-mentioned drawbacks.

The method is distinguished in that it is based on a granular mass of inorganic material, which is then mixed with an adhesive, after which the mixture is finally pressed into a shape desired for a seed pot.

Due to the use of a granular mass, after pressing between the grains, sufficient space remains to allow a good root system of the plant to develop, which roots can penetrate into the capillary spaces between the grains. In addition, the capillary spaces ensure a sufficient supply of moisture and food. The organic material itself does not have moisture-absorbing properties, such as with potting soil, so that all the supplied moisture can be used for the development of the plant. In addition, the inorganic material has the property of containing little to no germs, which contributes to the healthy development of the plant.

Preferably, as a granular mass, a rock wool granulate is used, the advantage of which is that the seed pot retains a certain degree of flexibility after pressing, given the per se flexible rock wool granules. As a result, little root damage occurs.

The seed pot obtained by the method preferably has a cylindrical shape, of which at least one end face is deepened. The cylindrical shape ensures an even supply of liquid and nutrients and gives the least chance of damage. The recessed head face serves to center the seed applied thereon in the center of the head face, thereby ensuring a symmetrical root system.

The invention furthermore relates to a method for germinating seeds using a seed pot mentioned above, which method is distinguished by placing a number of such seed pots in a carrier with cavities similar to the seed pot, then providing each of the pots with seed, to cover the carrier with pots with an evaporation-inhibiting layer in which moisture is applied in advance or simultaneously.

Such a method lends itself to the automation of arranging the seed pots or seeds, which lowers the cost price of the seed plants.

Germination preferably takes place in climatized spaces.

According to a further development of the method, the obtained germinated plant is weaned by placing the germination pot with the plant in a larger pot of inorganic material, for example rock wool, which fits the Jciempot appropriately. This ensures that no distinction is made between the different materials of the large and small pot, which would contribute to an uneven development of the plant, given the different properties 8401298 $ -3- in terms of moisture bubbles, absorption and evaporation of the different materials. However, the larger pot need not be of granular rock wool, but, for example, of the laminar rock-wool material already customary in plant nurseries.

The invention is further elucidated in the figure description below.

In the drawing shows:

Fig. 1 is a perspective schematic view of an automated system for making seed pots and preparing for germination.

Fig. 2 is a perspective view of a part of the system of FIG. 1 along the line II,

Fig. 3 a perspective view, partly broken away from a germination pot according to the invention,

Fig. 4 a detail of the material of the germination pot,

Fig. 5 a carrier provided with seed pots with obtained plants during transplanting into larger pots, FIG. 6 is a view or section, respectively, of a seed pot according to the invention placed in a larger pot.

In Fig. 1, numeral 1 denotes a container for a granulate and numeral 2 denotes a container for a suitable adhesive. The granulate may be of any nature, but is preferably of rock wool granules, which are freely available on the market. The adhesive may also be of any material, but is preferably of a water-soluble polymer.

The outflow opening of both containers 1 opens into a mixing vessel 3 where the two aforementioned raw materials are mixed in a predetermined ratio. The mixture is supplied via a funnel 4 via an injection manifold 5 in a press 6. The press is provided at the bottom 35 with a slide 7, which is reciprocated by an actuator (not shown) in the direction of the arrow P1. is slidable. When a sufficient amount of mixture is fed into the cavities 8 of the press 6, a punch 9 with pins 10 fitting in the cavities 8 is pressed down, 8401298-4- through which the mixture is pressed. The pins 10 are here provided with conical end parts, which ensure that the end face of the seed pot formed in the cylindrical cavity 8 takes on a recessed shape.

After a predetermined residence in the cavity 8, the slide 7 can be moved, so that the underside of the press 6 is released and all germ pots can be pressed simultaneously by further pressing down the stamp 9 into a carrier 11 arranged under the stamp 6. For this purpose, the carrier 11 is provided with a row of cavities 12, the shape of which is similar to that of the pressed seed pots. It should be noted here that the seed pots fit freely into the cavities 12, in order to enable an adequate liquid supply.

The carriers 11 are moved stepwise on a conveyor track 13 in the direction of the arrow P2, so that the row of cavities 12 can be filled in each case. After a carrier 11 has been completely filled, it arrives at the next station 14 where a "seed container 15 is erangebr-eight", at the bottom of which a number of supply tubes 16 corresponding to the number of seed pots are arranged. A layer of seeds is always released from the container 15 by means of a dosing device (not shown), whereby a seed grain always enters the seed pot via the tube 16. Thanks to the conically bulged head surface of a seed pot, the seed ends up in the middle of the head surface.

A covering station 17 is provided behind the sowing station 15, with which a layer of evaporation-inhibiting agent 18 is placed over the container with seed pots incorporated therein. If necessary, the layer can be wetted by means of a spray nozzle 19.

For a further development, the container 11 can be placed in an air-conditioned space for the correct germination of the seed.

Fig. 2 and 3 show in detail the system according to Fig. 1 outlined above. It should be noted that in Fig. 2 it can clearly be seen that the seed pot 20 is accommodated in the cavity 12 of the container 11 in a wide fitting manner. As a result, in each case a layer of water or other moisture can be applied in a cavity 12 by means of nutrient means 21 by means of a supply system 22.

Due to the granular structure of the germination pot 20, through the capillary space therein, see Figs. 3 and 4, a sufficient amount of liquid will rise up in the germination pot 20 and reach the seed on the top surface 25 of the germination pot. Germination is also promoted because of the moist top layer 18 applied later. Thanks to the inorganic material of the germ pot 20, practically any pathogen development is prevented in the system shown.

Fig. 5 shows the transplanting of germinated plants. After some time, the root system, see also fig. 6, of the plant has advanced such that the roots extend through the entire germination pot 20, whereby further development will be inhibited. The seed pot 20 can be placed in open ground, but according to the invention it is preferable to place the seed pot 20 with plant in a pot 23 of preferably the same raw material material such as rock wool, of a larger size. The pot 23 has a cavity 24, which substantially adjoins the circumferential shape of the seed pot 20. This allows an even further development of the root system to take place. The pots 23 are "of sufficient strength to function as a so-called loose pot. This promotes an even supply of air, liquid and nutrients and therefore a good further development of the plant. The material of the pot 23 need not be granular here, but can be made of laminated material as usual. When using the same raw material, however, it is ensured that no evaporation differences occur between the two pots, as a result of which temperature differences and thereby rot of the plant could occur.

The invention is not limited to the above-described embodiments. For example, it is possible that the germination pot has a different shape adapted to the plant to be grown. In addition, a multiple seed pot can fall within the scope of the invention, for example, in which more than one plant can be germinated simultaneously.

84012S8

Claims (9)

1. A method of manufacturing a seed pot for plant nurseries, characterized in that a granular mass of inorganic material is mixed with an adhesive at a predetermined ratio, after which the mixture is finally pressed into a shape desired for a seed pot. Method according to claim 1, characterized in that the granular mass consists of rock wool granulate. A method according to claims 1 and 2, characterized in that the adhesive consists of a water-soluble polymer. 4. Mixture consisting of a granulate, preferably rock wool granulate, and a water-soluble polymer, characterized in that the mixture is used for manufacturing a seed pot. 5. Germination pot obtained according to the method according to one of the preceding claims. 6. Germination pot according to claim 5, characterized in that the pot has a cylindrical shape with at least one recessed front surface. 7. A method of germinating seeds using a seed pot according to claim 5 or 6, characterized in that a number of seed pots are placed in a carrier with 25 cavities similar to the seed pot, each of the pots is provided with seed, the carrier with the pots arranged therein is covered with an evaporation-inhibiting layer, to which moisture is supplied before or simultaneously to the carrier. Method according to claim 7, characterized in that the carrier with seed pots is housed in a climate-controlled room. 9. A method according to claim 7 or 8, characterized in that the obtained plant is weaned by placing the seed pot with plant in a larger pot of inorganic material, for example rock wool, fitting the seed pot. 8401298