A method for the treatment of turf (11) comprising grass (12) growing in a matrix (15, 16) comprising removing matrix (15, 16) including any thatch and other infestation by blading (18) moving through the matrix (15, 16) to a predetermined depth (d). The method may be used to treat turf (11) reinforced with artificial grass (13). Equipment for carrying out the treatment comprises a bladed rotor (17) rotating about a horizontal axis.

A soil penetrating apparatus having an automatic tool (e.g., aerator tine) depth control system and method. The system includes an actuator that sets and controls tine depth, a sensor that monitors tine depth, and a controller that controls the actuator in response to the sensor. In some embodiments, the actuator is a hydraulic actuator, wherein once tine depth is set, flow to the actuator is bypassed. A relief may be provided to allow the tines to lift to a shallower depth temporarily when soil hardness exceeds a threshold. The system may then automatically return the tines to the pre-selected depth once soil conditions permit.

A soil penetrating apparatus having an automatic tool (e.g., aerator tine) depth control system and method. The system includes an actuator that sets and controls tine depth, a sensor that monitors tine depth, and a controller that controls the actuator in response to the sensor. In some embodiments, the actuator is a hydraulic actuator, wherein once tine depth is set, flow to the actuator is bypassed. A relief may be provided to allow the tines to lift to a shallower depth temporarily when soil hardness exceeds a threshold. The system may then automatically return the tines to the pre-selected depth once soil conditions permit.

A reseeding device (1) is configured for introducing grass seeds into an existing turf, comprising a rotatable shaft (2) which is provided with a number of blades (3) along its length which are at right angles to the shaft (2) and which are configured for cutting furrows into the turf and loosening and removing parts of the turf, a seed distributor (4) configured for spreading grass seeds at least in the furrows produced, in which the device (1) is configured, in use, to discharge the material loosened by the blades (3) over the shaft (2) and the seed distributor (4), along a direction (A) opposite to the direction of travel, so that the scattered grass seeds are at least partly covered by the loosened material. This reseeding device (1) prevents loosend material from forming an ipediment during reseeding.

A self propelled aerator and fertilizer apparatus 10. The apparatus 10 includes an elongated frame 12, having front wheels 20 and rear wheels 22 coupled to the frame. A steering wheel 30 which controls the front wheels 20 is provided so that the apparatus 10 can be moved in a predetermined direction. An aerator 34 is coupled underneath a lower intermediate portion of the frame 12 for aerating the soil upon rotation thereof when the aerator is moved up and down to selectively engage the soil. A fertilizer 90 is coupled to an upper end portion of the elongated frame 12 so that fertilizer can be dispensed into the soil after aeration is accomplished.

A kit for converting a roller into an aerator tool comprising at least one cover layer intended to be removably applied and fix around the roller, the external surface of said cover layer being provided with means for penetrating into the soil.

A kit for converting a roller into an aerator tool comprising at least one cover layer intended to be removably applied and fix around the roller, the external surface of said cover layer being provided with means for penetrating into the soil.

A power seeder may include a frame, one or more wheels, one or more blades capable of cutting into soil, an engine capable of powering the one or more blades, and a seed hopper. The seed hopper may have an opening capable of dispensing seed located forward of the one or more blades. The one or more blades may rotate in an opposite direction to a forward rotation of the one or more wheels. In some embodiments, the seeder may further include a handle for adjusting the height of the one or more blades, a plurality of interlocking teeth, and a spring. The spring may provide a load to counteract the force of gravity on the one or more blades. The aerator may also include a flap located between the opening and the one or more blades.

A power seeder may include a frame, one or more wheels, one or more blades capable of cutting into soil, an engine capable of powering the one or more blades, and a seed hopper. The seed hopper may have an opening capable of dispensing seed located forward of the one or more blades. The one or more blades may rotate in an opposite direction to a forward rotation of the one or more wheels. In some embodiments, the seeder may further include a handle for adjusting the height of the one or more blades, a plurality of interlocking teeth, and a spring. The spring may provide a load to counteract the force of gravity on the one or more blades. The aerator may also include a flap located between the opening and the one or more blades.

Provided is a piercing tool which can be used by optionally replacing a distal end portion, which is to be first brought into abutment against an object to be pierced such as the ground, and can facilitate a replacement operation of the distal end portion. A piercing tool (1) includes: a distal end portion (2), which has a cylindrical shape, and is to be first brought into abutment against an object; and a main body portion (3), which has a cylindrical shape at at least a part of the main body portion (3), and has one end portion to which the distal end portion (2) is mounted, wherein the distal end portion (2) is removably mounted to the one end portion of the main body portion (3). The distal end portion (2) has an inner peripheral surface having a female thread formed at an end portion of the distal end portion (2) on a side to be mounted to the main body portion (3). The main body portion (3) has an outer peripheral surface having a male thread (36) formed so as to be engaged with the female thread at the end portion of the main body portion (3) on a side to which the distal end portion (2) is mounted. The distal end portion (2) has a Rockwell hardness higher than a Rockwell hardness of the main body portion (3).