PL65211Y1 - Intrasoil applicator - Google Patents

Description

Description of the pattern The subject of the utility model is a soil applicator intended for soil application of ammonia water to arable fields. The applicator is detachably attached to the slurry tanker. Soil applicators are known and used, intended for introducing various fertilizers, especially slurry, into the soil. The applicator for in-depth soil fertilization with liquid or semi-liquid fertilizers, known from the Polish patent specification No. 172 960, consists of a support frame with wheels, on which coulter units with axially mounted air nozzles are mounted. On the vertical arms of the supporting structure there are mounted pivoting, hitching grips of the outer segments of the support frame, which are flared with a hydraulic breaker. The outer outer sections of the support frame are articulated to the middle section of the support frame and set for snap engagement with the swing-out lugs by the action of a hydraulic actuator. The applicator presented in the application description P-370236 has a transverse position of a beam, to which, through a system of arms, coulters movable in a vertical plane are attached, provided with stub pipes for liquid fertilizer. The beam consists of a fixed part and two withdrawable parts. The applicator has a transversely located shaft, rotatably placed in the support sockets, and having central arms connected to the hydraulic cylinders. The shaft is connected to the beam to which the coulters are attached through the lower arms mounted on the shaft ends, while the beam is additionally connected to the mounting plates through the upper arms. The beam is equipped with rotating latches protruding beyond the walls of extensible beams, and in the walls of the fixed beam there are through recesses. In the known soil applicators for introducing liquid fertilizers into the soil, coulters of a different structure and shape of the working part are used as working tools. The use of coulters requires a clean field, devoid of various contaminants related to cultivation and soil, for example during harvest. The most common of these contaminants are a piece of string. In practice, it is not possible to properly clean the field, hence, during field works involving the introduction of fertilizers into the soil, working tools in the form of coulters are contaminated. Cultivated with residues after harvesting and other field work, the coulters require frequent cleaning. This is an inconvenience to the use of known applicators. Moreover, the construction of coulters and related parts does not always guarantee that the appropriate grooves for fertilizers and their backfilling are made. In order to eliminate the above-mentioned inconveniences, a soil applicator was developed, which enables soil fertilization with liquid fertilizers with the correct dosage and correct delivery to the soil. Soil injector, according to the utility formula, connected separately with a slurry tanker, having a suspension component with a rotating shaft, to which, at both ends, there are attached an orchard of bridges cooperating with hydraulic cylinders and equipped with a hydraulic system for lifting and lowering the subassembly to which the working elements are attached, the spreading system for supplying the working liquid to the downspouts, is characterized by the fact that the subassembly to which the working elements are attached is in the form of a frame containing sockets protruding from the side of the slurry tanker connecting the frame with levers belonging to the suspension subassembly. Working elements are in the form of disc coulters attached to the frame. Each disc coulter has a discharge tube with an open drain hole and a cleaning plate attached to the bottom of the discharge tube and is equipped with a bent scraper and an end behind the disc coulter. The cleaning pad includes a blade with a rounded tip, slightly curved in a vertical plane. The use as working tools of coulters inclined in a vertical plane and equipped with cleaning plates and scrapers significantly improves the working conditions for the application of liquid fertilizers, especially such as ammonia water. The cleaning plate scrapes the soil off the cut and prevents the groove from filling in too early by automatically sliding down the soil. On the other hand, the scraper located behind the coulter fills the groove with the working fluid supplied to it previously. The compact structure of the frame stiffens the entire working system, and the sockets allow for a secure connection of the frame with levers mounted on the shaft. PL 65 211 Y1 3 Subject of the design The practical application is shown in the drawing, in which Fig. 1 shows the soil applicator in a rear view of the slurry tanker, Fig. 2 - applicator in a side view, Fig. 3 - applicator in a top view, Fig. 4 - disc coulter in a side view from the scraper side, Fig. 5 is a top view disc coulter, and Fig. 6 is a disc coulter view from the cleaning plate side. The soil injector, according to the utility formula, consists of a suspension component 1, a frame 2, disc coulters 3 with arms 4, support wheels 5, and is equipped with a hydraulic system with hydraulic cylinders 6 for lifting and lowering the frame 1 and Filling track for supplying working liquid to drain pipes. The suspension unit 1 is made of brackets 7, in which there is a rotary shaft 8, on both ends of which there are mounted saddles 9, co-operating with hydraulic cylinders 6. The applicator is connected separately with the tank of the slurry tank 10 through brackets 7 bolted to the tank of the slurry tanker 10. Frame 2 includes sockets 11 for connecting the frame 2 with levers 9 of the suspension component 1. The frame 2 is fitted with disc coulters 3 with arms 4. Each disc coulter 3 has a tube drain 12 with open drain hole 13 and cleaning plate 14 mounted in the lower part of drain pipe 12 and equipped with scraper 15 with a bend and a tip 16 located behind the disc coulter 3. The disc coulters 3 are inclined vertically. The cleaning plate 14 comprises a blade 17 with a rounded tip 18, slightly offset in a vertical plane. Between the shaft casing 8 and the levers 9, transverse stabilizers 19 are mounted in the form of adjusting screws to fix the position of the frame 2 with disc coulters 3 and to stiffen the lever 9 against side forces. Between the tank of the slurry tanker 10 and the frame and 2, horizontal stabilizers 20 in the form of adjusting screws are mounted to fix the inclination of the frame 2 with disc coulters 3 and in the correct recess of the disc coulter 3 in the soil. The frame 2 is raised or lowered by turning the shaft 8 as a result of the action of hydraulic cylinders 6 on the lever 9. The rotating shaft 8 raises or lowers the frame 2 and together with disc coulters 3. EN EN

Claims (3)

1. Protective caveats 1. Soil injector connected separately with a slurry tanker, having a suspension unit with a rotating shaft, to which, at both ends, there are mounted reels cooperating with hydraulic cylinders and equipped with a hydraulic system for lifting and lowering the subassembly to which working elements are attached, a spreading system for supplying working liquid to drain pipes, characterized in that the subassembly to which working elements are attached is in the form of a frame (2 ) with sockets (11) protruding from the side of the slurry tanker (10) for connecting the frame (2) with the levers (9) of the suspension subassembly (1), and the working elements are in the form of disc coulters (3) fixed to the frame ( 2). 2. The applicator according to claim 1, characterized in that each disc coulter (3) has a drain tube (12) with an open drain hole (13) and a cleaning plate (14) attached to the bottom of the drain tube ( 12) and is equipped with a scraper (15) with a bent tip (16), placed behind the disc coulter (3). 3. The applicator according to claim The method according to claim 2, characterized in that the cleaning plate (14) has a blade (17) with a rounded tip (18), the blade (17) slightly deflected in a vertical plane. PL 65 211 Y1 4 Figures 65 211 Y1 5PL 65 211 Y1 6 Publishing Department of the UP RP PL PL