NL9101263A - Potting press for growth trays - Google Patents

Abstract

Method and device for filling growth trays with pressed pots, in which at least one mould tray with dimensions which are smaller than the growth tray to be filled and provided with continuous mould cavities in the same arrangement as the openings in the growth tray is held in a horizontally arranged rotatable wheel, it being possible to move the or each tray beneath a filling chamber where potting compound is poured onto the mould and is pressed into the mould cavities by a pressure plate, and the mould can then be moved into a press-out station, between components for pressing out the pressed pots which are located above it and a growth tray which is located below it. <IMAGE>

Description

Title: Pot press for culture plates

The invention relates to a method and an apparatus for filling culture plates or trays with pressing pots.

Conventional culture plates have dimensions of 60 x 40 cm and are provided with approximately 240, for example cylindrical, cavities with a diameter of approximately 2.5 cm. The culture plates are filled with press pots and then each press pot is filled with a seed. The culture plates are kept in a climatically controlled environment for a period of time to allow the seeds to germinate. Then the press pots with seedlings are weaned into the ground or into substrate blocks.

The currently commercially available pot presses for filling culture plates are provided with a mold plate of substantially the same dimensions and with mold cavities in the same arrangement as the cavities in the culture plate to be filled. The mold plate is pressed in a poured amount of soil to fill the mold cavities and the press pots thus formed are then introduced into the mold via a trolley over a culture plate and released into the culture plate cavities by means of pushers. In principle, this press works according to the so-called DIXIEPACK system in which a mold with a grid pattern of vertical strips is pressed from above into an amount of potting soil and the square pots thus formed are placed with the mold in a box and pressed down from the mold.

A drawback of the known presses for filling culture plates is that a lot of force is required to press the mold, with substantially the same dimensions as the culture plate and with a large number of small mold cavities, into a poured amount of potting soil such that the mold cavities are stuffed up. After all, with a lot of poured soil it will have a greater height in the middle than on the sides and the die plate must push soil out from the center to the side.

The larger the die dimensions, the more energy will be needed to compensate for height differences in a pile of deposited earth. A commercialized machine of this type has a 20 HP hydraulic motor for pressing the mold into potting soil. This means that the entire machine must be designed to absorb large power, therefore it must be heavy and therefore expensive.

The object of the invention is a method and an apparatus for pressing pots from potting soil and placing these pots in a cultivation plate, wherein the above drawbacks are avoided.

To this end, a method in which an amount of potting soil is pressed into a mold, provided with a number of cavities in the same arrangement as the cavities in a culture plate to be filled, then the mold is placed above the culture plate with the potting soil compressed into press pots in the mold cavities, the press pots are pressed out of the mold and are collected in the cavities of the culture plate, characterized in that per press and transfer operation only a part of the surface of the culture plate is filled with press pots.

The advantage of this method, in which a culture plate is filled in a number of successive pressing and transfer operations, is that the mold in which the pressing pots are formed can have smaller dimensions than the culture plate. This reduces the force required for pressing the potting soil into the mold. An additional advantage is that, when the surface of the mold decreases, the force required for pressing the potting soil into the mold decreases more than proportionally. Therefore, when filling a culture plate of 60 x 40 cm and 240 cavities with a diameter of 2.5 cm in four pressing and transfer operations, it is possible to use an electric motor for pressing the potting soil into the mold with a power of only 2 horsepower.

In further elaboration of the invention, before filling the mold, an amount of potting soil can be poured on a mold with continuous mold cavities, the potting soil is pressed from above into the mold cavities and the mold is subsequently moved sideways, while removing excess potting soil, until above a part of a culture plate to be filled and from above the press pots are pressed into the cavities of the relevant part of the culture plate-

This technique has the advantage that when pouring potting soil onto the mold, its cavities are already partially filled and the pressing operation has more of an additional and consolidating effect.

For carrying out the method, the invention provides a device, provided with a filling chamber and a pushing station, a horizontal transport means for successively bringing the or each mold provided with continuous mold cavities under the filling chamber and in the pushing station, wherein the filling chamber is provided of means for depositing predetermined amounts of potting soil therein and of a pressing device which is equipped with a pressing plate and a driving motor and wherein the pressing station is provided with pushing members and with a conveying means for moving culture plates stepwise under the pressing members.

Such a device offers the advantage that the driving device for the press plate as well as the pressing members can be stationary and that only the mold needs to be moved from the pressing part to the dispensing part. Therefore, the horizontal transport means for the mold or molds can be of light design.

According to the invention, in an embodiment of the device with which, despite the multi-step filling of culture plates, a high production can still be obtained and which can be manufactured economically, the horizontal transport means is designed as a rotatable disc arranged substantially horizontally, in which at least one die, which is provided with continuous cavities, is included, the or each die being located on a pitch circle near the peripheral edge of the disc, the filling station being arranged at a first part of the circumference of the disc at the pitch circle and the ejection station is disposed at a second portion of the pitch circle of the disc.

With the aid of such a device, it is possible, for example, if eight dies are mounted in the disc, to fill a mold at the filling station, and at the same time to express the press pots that are in an already filled mold at the ejecting station in a rotatable disc fed culture plate. The disc can then rotate through 45 ° and the process can be repeated. In this way, a semi-continuous process of filling and pressing is provided and no time is wasted in that the pot press die must first be moved back and forth to a culture plate to be filled before it can reshape press pots, as is the case with conventional culture plate pot presses. is the case.

In a further elaboration of the device according to the invention, the or each mold can have a surface covering a part of the surface of a culture plate to be filled and a step-by-step conveyor for culture plates can be arranged at the pressing station.

Because a culture plate is filled in a number of steps, for example four steps, the force required for pressing the potting soil into the successive molds can be small and the entire device can be light and therefore cheap.

In a further elaboration of the device according to the invention, the filling station can be provided with a filling chamber arranged above the rotatable disc and with an up and down movable closing plate on the underside of the rotating disc, the piston acting as piston in the filling chamber. vertically upwardly movable driven press plate is provided.

The potting soil is introduced into the filling chamber and is then located on the mold, the continuous cavities of which are closed at the bottom by the temporarily raised closing plate. The pressing plate, which functions as a piston, is then pressed down into the filling chamber and the potting soil is pressed into the cavities of the mold.

In order to be able to control the density of the pots to be pressed, according to a further elaboration of the invention, the filling chamber is connected to an adjacent storage chamber via a size-adjustable, closable opening just above the rotatable disc.

After opening this size-adjustable connection opening, the disc is rotated, bringing a layer of soil from the storage chamber into the filling chamber. With the size of the connection opening, the layer thickness and thus the density of the press pots can be controlled.

Furthermore, according to the invention, the ejection station can be provided with an ejection plate, which is movable substantially vertically up and down and is arranged above the rotatable disc, with substantially the same dimensions as the or each mold, the ejection plate being provided on the underside with ejector pins are arranged in a pattern corresponding to the pattern of the cavities in the mold.

Such a push-out station can push the press pots in a mold, when this mold is under the push-out plate, with a downward movement of the push-out plate from the mold. Optionally, the push-out pins on the underside can tapers so that, at the same time as pressing out, planting holes are formed in which the seeds can be placed.

With the aid of such a device, empty culture plates or trays can be supplied in a semi-continuous process and culture plates filled with press pots filled in stepwise manner.

It is clear that the invention is not limited to the described exemplary embodiment, but that various modifications are possible within the scope of the invention. It is important that a culture plate is filled in steps and that this is done using a mold of smaller dimensions than the culture plate to be filled and with continuous mold cavities that are filled from the top and unloaded downwards into a culture plate.

To clarify the invention, an embodiment of the pot press for culture plates will be described with reference to the drawing

Fig. 1 is a top view of the pot press; Figure 2 is a front view of the press; and Figure 3 is an end view of the press.

According to the drawing, a frame (carousel) 3 rotatable about a vertical axis 2 is mounted on a frame 1. In the disc 3, in the circumferential direction, a number of (in the illustrated embodiment eight) die blocks 4 are mounted, which are provided with through holes arranged according to a specific pattern. The hole pattern in the die blocks 6 corresponds to the cavity pattern. fill culture plates 7 which are supplied on a stepped drivable conveyor 8.

Above the disc 3, a filling chamber 9 and an ejection station 10 are arranged diametrically opposite each other. The conveyor 8, with which culture plates 7 are supplied, runs tangentially with respect to the disk 3 under the ejection station 10.

In the filling chamber 9, a pressing plate 11, which can be driven by an electric motor 13 via a crank mechanism 12, can be moved up and down as a piston. A closing plate 14 is movable up and down under the filling chamber 9.

In addition to the filling chamber 9, upstream of the direction of rotation of the disc 3 upstream, a storage chamber 15 is provided, which is filled via a supply belt 16 from a potting soil supply which is not shown further. The filling chamber 9 communicates with the storage chamber 15 via a passage opening 17 which is adjustable by means of an up and down movable slide 18.

In the knockout station 10, a knockout plate 19 with pins 20 in the same arrangement pattern as that of the holes in the die blocks 4 is movable up and down.

The operation of the pot press is as follows:

After the size of the passage opening 17 has been set, the disc 3 is rotated through 45 °. The closing plate 14 has been moved upwardly so that it closes the die block 4 located under the filling chamber from below. During the rotation of the disc 3, soil is taken from the storage chamber 15 to the filling chamber 9, which is thereby filled with a flat layer of earth, the thickness of which is determined by the size of the passage opening 17.

By activating the motor 13, the pressing plate 11 is lowered, whereby pressing pots are formed in the mold block 4 located under the filling chamber.

At the same time, press pots formed in an earlier stage in the die block 4 located in the ejection station 10 can be pressed through the ejection plate 19 into the portion of the culture plate 7 currently located below the ejection station.

This cycle can be repeated, each time the culture plate 7 is slid over a distance corresponding to the width of the die block 4, i.e. a quarter of the culture plate length. Before the disc 3 is rotated, the closing plate 14 is lowered. The top of a filled mold block 4 is scraped against the bottom edge of the downstream filling chamber wall as it rotates further.

Claims (9)

Method for filling culture plates in which an amount of potting soil is pressed into a mold, provided with a number of cavities in the same arrangement as the cavities in a culture plate to be filled, then the mold with the potting soil compressed into press molds in the mold cavities, above the culture plate is introduced, the press pots are pressed out of the mold and are collected in the cavities of the culture plate, characterized in that per press and transfer operation only part of the surface of the culture plate is filled with press pots. A method according to claim 1, characterized in that before filling the mold, an amount of potting soil is poured onto a mold with continuous mold cavities, the potting soil is pressed from above into the mold cavities and the mold is then leveled, while excess potting soil is leveled off. , is moved laterally to above a part of a culture plate to be filled and from the top the pressing pots are pressed into the cavities of the relevant part of the culture plate. Device for carrying out the method according to claim 1 or 2, characterized in that it is provided with a filling chamber (9) and a pressing station (10), a horizontal transport means (3) for successively bringing the or each die (4) provided with continuous mold cavities under the filling chamber (9) and in the ejection station (10), the filling chamber (9) being provided with means (15, 17, 18) for depositing predetermined amounts of potting soil therein and of a pressing device (11-13) which is equipped with a pressing plate (11) and a drive motor (13) and wherein the pressing station (10) is provided with pushing members (20) and a transport means (8) for stepwise movement of culture plates (7) under the pushers (20). Device according to claim 3, characterized in that the horizontal transport means is designed as a substantially horizontally arranged rotatable disc (3), in which at least one mold (4), which is provided with continuous cavities (6), is included, the or each die (4) being located on a pitch circle near the peripheral edge of the disk (3), the filling station being located at a first part of the circumference of the disk (3) at the location of the stitch circle and at a second part of the pitch circle of the disc is the ejection station (10). Device according to claim 3 or 4, characterized in that the or each mold (4) has a surface which covers a part of the surface of a culture plate (7) to be filled and a conveyor which can be moved step-by-step at the pressing station (10) (8) is provided for culture plates. Device according to any one of claims 3-5, characterized in that the filling station is provided with a filling chamber (9) arranged above the rotatable disc and with an up and down movable closing plate (14) on the underside of the rotating disc (3), wherein the filling chamber (9) contains the piston-operated, vertically movable press-up plate (11). Device according to any one of claims 3-6, characterized in that the filling chamber (9) is connected to an adjacent storage chamber (15) via a size-adjustable, closable opening (17) just above the rotatable disc (3). ). Device according to any one of claims 3-7, characterized in that the ejection station (10) is provided with an ejection plate (19), which is movable substantially up and down, arranged above the rotatable disc (3) substantially the same dimensions as the or each die (4), the knockout plate (19) being provided at the bottom with knockout pins (20) arranged in a pattern corresponding to the pattern of the cavities in the die (4). Device according to any one of claims 3-9, characterized in that the push-out pins (20) tapers at the bottom.