NL1034863C2 - Aeration device for lawns. - Google Patents

Description

AERATION DEVICE FOR GRASS FIELDS.

The invention relates to a device for aerating a grass cover, comprising: - a frame, - a movement provision arranged on the frame for moving the device in a direction of movement over the ground, - a driven main shaft mounted in the bearing horizontal frame, perpendicular to the direction of movement, - eccentric cams mounted on the main shaft, - at least two pin disk assemblies, mounted around the eccentric cams on the main shaft, - aeration pins mounted on the pin disk of the pin disk assembly , characterized in that during the rolling over the ground the aeration pins receive a vibrating movement in the direction of the longitudinal axis of the aeration pins.

Due to the use of lawns and environmental factors, lawns become densified. Due to this compaction, little or no oxygen can enter the soil. The soil can thereby become acidic, which disrupts the natural balance.

Aerating is a necessary operation for a well-maintained lawn.

20 Aeration devices come in many types. If we limit ourselves to aeration devices that are equipped with aeration pins, then this category can be roughly divided into two types. First, there are the aeration devices that work with solid (round) pins. To minimize compaction during the insertion, these pins often break the top layer. Secondly, there are aeration devices that are provided with hollow pins. These hollow pins release an earth cone and throw it on the lawn. These earth cones are subsequently removed. Because material is taken out by the hollow pin, it is not necessary to break the top layer. Some aeration devices can be equipped with both solid and hollow pins.

To further optimize the aeration, it is desirable to fill the inserted holes again with 30 (new) soil. The root set of the existing grass mat can then be rooted in the newly applied soil.

Now it is not easy to fill the inserted holes to the bottom with soil. The hollow pin aerator also often unnecessarily removes soil from the soil. In a normal aeration device with hollow pins, the hollow pin is inserted into the ground in one stroke. The earth cone will therefore be cut loose as a whole and received in the hollow pin. These earth cones, consisting of grass with roots and soil, are then ejected and removed as a whole. New earth is then supplied to be introduced into the holes. This is a time-consuming and expensive operation. After all, on one side 5 earth is thrown away and on the other side extra new earth must be supplied. The invention provides a solution to this problem. The present aeration device performs a vibratory movement in the longitudinal direction of the pin during the insertion of the hollow pin into the ground. This first makes it much easier to drive the pin into the ground during the input stroke. Subsequently, when hollow pins are used, the earth is shaken out of the earth's cone during the outgoing stroke. The knocked-out soil remains in the hole. So the earth is being used again. Filling the hole is then easier and requires less material. The volume of the too large earth cones is also smaller.

The invention will be further described with reference to the non-limitative exemplary embodiment shown in the following figures, in which: figure 1 shows a perspective, partly cut-away, side view of the aeration device according to a first embodiment of the invention, figure 2 Figure 1 is a schematic cross-section of Figure 1, Figure 3 shows a schematic detail of the pin disk, provided with hollow pins, which protrudes and shakes out an earth cone, Figure 4 shows a schematic top section of Figure 2. shows.

In FIG. the aeration device is shown in perspective. The device consists of a main frame 21 with a non-limitative tension 4.23, with which the device can be attached to a floating vehicle. The aeration device can be supplied in various embodiments, whereby it can be coupled to many different floating vehicles.

The frame 21 is supported by supporting roller 5 at a certain height above the ground. This height is adjustable, so that the working depth can be changed. Main shaft 3 is mounted in the frame in bearings, in the horizontal plane and perpendicular to the direction of movement 20. This main shaft 3 is driven by means of drives 1, 2 and 22.

A number of pin pulley assemblies 6-11 are mounted around this main shaft 3 around eccentric cams 17, which are fixedly connected to this main shaft 3 in a specific order.

3

The pin-disk assemblies consist of base plates 19 on which both solid and hollow pins 12 can be mounted. In this embodiment, two base plates 19 form a pin disk assembly.

As soon as the pins are placed on the ground and as soon as the frame 21 is moved forward, the pin disc assemblies will "roll" 13 over the ground. Because of its own weight, the pins will penetrate into the ground to a certain depth until there is a balance between the weight of the frame and the resistance in the ground.

As soon as the drive 1, 2, 22 is switched on, the main shaft 3 starts to rotate 16. As a result of this rotation the eccentric cams 17 will cause the pin disk 10 assembling along the ground to vibrate. A shaking movement occurs in the longitudinal axis of the pins, the magnitude of which is determined by the stroke of the eccentric cam 17 and the rotation frequency is determined by the speed of the main shaft 3.

In FIG. one pin disc assembly is shown in a cut-away side view. This figure also clearly shows that an aeration device can be driven into the ground without an eccentric vibratory movement. The weight G of the frame only works vertically downwards. Pin 12c will therefore be driven into the ground. However, the pins 12a, 12b, 12d and 12e cannot be inserted straight down into the ground. As a result, such an aeration device will be limited in its working depth. Namely, the pins 12a, 12b, 12d and 12e will support the weight of the frame on one side 30 on the ground.

This problem is also solved in the present invention. Because the pin-disc assembly makes a vibratory movement in the longitudinal axis direction of all pins, each pin which is in contact with the ground will be driven in turn in its longitudinal direction into the ground during rolling over the ground.

25. a detail is drawn of the (hollow) pins as they roll over the ground 13. The main shaft 3 is driven. The entire pin disk assembly is moved in the direction of all mounted pins. The ground 42 has a grass mat 40 on top with a root frame 41 below it. The hollow pin 12a is about to be driven into the ground. As soon as the pin disk assembly further develops along the ground 42, pin 12 is driven deeper and deeper into the ground 12a-12b-12c. This driving is facilitated by the vibrating movement 14, which is generated by the rotating main shaft 3 with the eccentric cams 17.

4

A standard hollow pin 12 always has a smaller passage on the insertion side, so that the earth cone does not get stuck in the hollow pin. The earth cone must therefore always leave the hollow pin on a side other than the plug-in side.

As soon as the hollow pin 12 has reached depth, 12c, it will leave the ground again after further rotation, 12c-12d-12e. During this rotation pin 12 constantly shakes in the direction of its longitudinal axis. This shaking movement ensures that the earth that is held by the grass roots in the earth cone 45 is shaken out and immediately put back into the inserted hole, 43 and 44. Not only is this earth lying on the bottom of the hole, it is also shaken loose, as a result of which the roots of the adjacent grass cover can quickly become familiar with this earth again.

Because the remainder of the earth cone can only leave the hollow pin via a different route than where it entered, it will fall out of the hollow pin during the further rotation of the pin disk.

With conventional hollow pin aerators, the earth cone sometimes gets stuck in the conically shaped hollow pin. The shaking movement of pin in the present invention prevents the earth cone from being stuck. As soon as the pin is in the upper position (12f, Fig. 2), the earth cone 46-46a-46b will fall out, partly due to the shaking movement and end up on the turf. These earth cones can be collected simultaneously with a (not specified) collection tray or plate.

20 in FIG. Finally, the composition of the main axis is shown in a sectional top view. Main shaft 3 is mounted 51.52 in the frame 21. The main shaft is driven by drive 2. The eccentric cams 17 arranged in a fixed order are clearly visible. As soon as the main shaft 3 is driven and the pin pulley assemblies 6-11 (non-limitative) are placed on the ground, the pin pulley assemblies will be pressed in the direction of the ground in turn. This creates a perfect balance in the frame. Because the pin wheel assemblies are driven into the ground one after the other, less weight of the frame is required.

The present invention uses mechanically generated vibrations to create aeration holes. Sometimes many vibrations per pin are needed to penetrate to the desired depth under difficult circumstances. This is possible by reducing the driving speed.

1034863

Claims (9)

1. The invention relates to a device for aerating a grass cover, comprising: - a frame, 5. a movement provision arranged on the frame for moving the device in a direction of movement over the ground, - a driven main shaft, mounted mounted in a bearing in the frame in the horizontal plane, perpendicular to the direction of movement, - eccentric cams mounted on the main shaft, 10. at least two pin disk assemblies, mounted around the eccentric cams on the main shaft, aeration pins mounted on the pin disk of the pen disk composition, characterized in that during the rolling over the ground the aeration pins receive a vibrating movement in the direction of the longitudinal axis of the aeration pins. Device as claimed in claim 1, characterized in that if the aeration pin is a solid pin, it can be inserted into the ground considerably more easily by the vibrating movement and can be pulled out of the ground with less damage. 3. Device as claimed in claim 1, characterized in that, if the aeration pin is a hollow pin, it can be inserted more easily into the ground during the entry stroke 20 and also during re-emergence from the ground the reusable soil from the roots of the put the earth cone in shake and leave it in the inserted hole. 4. The device as claimed in claim 3, characterized in that the tightening of the earth cones in the hollow pin is reduced by the vibratory movement of the hollow pins. 5. Device as claimed in claims 1-3, characterized in that the pins are interchangeable. Device according to claim 1, characterized in that the insertion capacity of the pin in the ground is directly related to the driving speed. Device according to claim 1, characterized in that the eccentrically arranged cams are mounted on the main axis in a fixed order. Device as claimed in claim 1, characterized in that the magnitude of the vibration motion amplitude is adjustable. Device according to claim 1, characterized in that the frequency of the vibrating movement is adjustable. ^ "4863" 863