TESTING SERVICE OF FUNCTIONAL AND SAFETY CHARACTERISTICS OF AGRICULTURAL MACHINES TEST REPORT n 03-031a ROTARY TILLER: MAXI SQUALO 4200 (extensions: 03-31b Maxi Squalo 4700; 03-031c Maxi Squalo 5200) MANUFACTURER: VALENTINI ANTONIO MACCHINE AGRICOLE Via Visentin, 96 35012 Camposampiero (PD) - ITALY Rome, November 2000 1/8
TESTS PERFORMED IN CONFORMITY WITH ENAMA METHODOLOGY N 03 AT THE ISTITUTO SPERIMENTALE PER LA MECCANIZZAZIONE AGRICOLA DI MONTEROTONDO - ROME, BY: Manager Mr. Giovanni Santoro (ISMA - Rome) Test technician Mr. Roberto Fanigliulo ( ) Operators Mr. Gino Brannetti ( ) Mr. Cesare Cervellini ( ) CONTENTS MACHINE DESCRIPTION 3 ACCESSORIES 3 TECHNICAL DATA 4 TEST CONDITIONS 5 TEST RESULTS 5 REMARCS ON FUNCTIONALITY 7 RECOMMENDATIONS AND INSTRUCTIONS 7 ROAD CIRCULATION 7 SAFETY CHECK 7 MODELS IN THE SAME SERIES 7 THE FOLLOWING RULES WILL HELP UNDERSTANDING THE RESULTS: 1 MPa = 1000 kpa = 10 bar 10 kg force /cm 2 1 dan 1.02 kg force 1 kw = 1.36 CV 1 m/s = 3.6 km/h 2/8
12 4 8 9 10 11 ACCESSORIES The machine may be fitted with: front surface subsoiler anchorage points: adjustable, their purpose is to remove caked earth from the tractor tyres; front depth subsoiler anchorage points: adjustable, their purpose is to break up any turf-forming plants in the soil and lift them towards the rotors; hydraulic jacks for the adjustment of the working depth of the rear rollers, directly from the tractor cab; front pair of wheels: for a finer adjustment of working depth when rear rollers are not fitted; left and right front small ploughshares: placed sideways on the front beam, their purpose is help the machine to penetrate unploughed soil; ISO 2 cat three-point attachment with hydraulic lifting: the PTO that comes leaves the back of the gear box makes it possible to operate a seeding machine that can be raised above the tiller when it is being transported or manoeuvred. 7 1 6 3 2 MACHINE DESCRIPTION The VALENTINI rotary tiller, mod. Maxi Squalo 4200, is a hydraulically folding mounted agricultural machine, earth refining and seedbed preparation to complete the work of the plough. The tiller examined, with a theoretical working width of 4,20 m, is part of the Maxi Squalo series consisting of four models with variable width from 4.2 m to 5.2 m. The soil is tilled by 96 curved tines arranged in groups of 6 per flange rotating on a horizontal axis; further soil refinement and levelling is performed by leveller casings and packer rollers hinged to the back of the frame. 5 Figure 1 Picture of the tested machine and its components: 1) three-point tractor linkage support; 2) upper link connection; 3) lower link connection 4) cross shafts for transmission of power to the side transmission assemblies; 5) cardan shaft connecting to the tractor s PTO; 6) side cardan shaft protection; 7) tiller tools; 8) rear roller position; 9) hydraulic cylinders for roller working height adjustment; 10) front guard; 11) identification plate; 12) side slides. Roller: 1. Cage type with polythene coated spiral bar (Ø 495 mm): surface levelling and refinement on all soils except those that are particularly wet and sticky; the bars can be partially removed depending on operating conditions; 2. triangular toothed packers (Ø 550 mm): surface levelling and refinement on all soils provided they are not particularly wet and sticky; 3. spiropacker (Ø 500 mm): deep layer compacting action, also suitable for sticky ground; 4. spike-type (Ø 570 mm): depth checking of all soils; it is fitted with long S shaped pressed teeth, in sets of 4 per working section; 3/8
TECHNICAL DATA SERIAL NUMBER OF TESTED MACHINE 3024200 OVERALL DIMENSIONS working pos. transport pos (folded section) total width (mm) 4560 2480 total length (mm) 1800 1800 total height (mm) 1430 2240 FRAME type tractor coupling TRANSMISSION from the PTO main transmission tools transmission PTO speed STANDARD TOOLS type width (mm) 95 thickness (mm) 8 total no. 96 n per flange 6 flanges (n ) 16 centre-to-centre distance (mm) 250 diameter (mm) 280 tiller blade rotors number (mm) 2 length (mm) 1970 shaft diameter(mm) 108 diameter including tools (mm) 520 RATED DIMENSIONS OF THE WORKED LAYER maximum width (mm) 4200 maximum depth (mm) 280 sheet steel boxed section and steel plates three-point linkage ISO 2 cat cardan shaft without torque limiter final drive box with permanently engaged straight bevel gears (24-30 teeth), in oil bath; the cross transmission shafts leaving the final drive box through cardan shafts are connected to the tiller blade rotors by means of side gear-cascade type transmission assemblies with tools rotation speed of 258 rpm for each section of the tiller; 1000 rpm curved steel blades rotating on a horizontal axis and bolted on circular steel flanges. BLADE ROTATION SPEED standard gear couple 258 rpm; (24-30 teeth) (with PTO. at 1000 rpm) AVERAGE POWER OUTPUT AT THE PTO (KW) 139 OVERALL MASS WITHOUT ACCESSORIES (Kg) 2050 4/8
TEST CONDITIONS TRACTOR USED The tiller was coupled to a four-wheel drive tractor with the following characteristics: rated power 176.5 kw overall mass 9730 kg linkage cat.3 ISO The rotation speed at the power take off used for the operation of the rotors was set at 1000 rpm when the drive shaft turned at 1903 rpm. TEST GROUND Tests were performed on slightly undulating ground that had been ploughed previously at a depth of 0.40 m with a rise of 0.18 m. Before tilling was carried out the following was determined: relative humidity (from 0 to 0.2 m and from 0.2 to 0.4 m in depth), the average apparent density and the average resistance to soil penetration (from 0 to 0.4 m in depth) (tab. 1). Skeleton (%) 0 Sand (%) 2.3 Silt (%) 43.4 Clay (%) 54.3 Liquid limit (%) 62.2 Plastic limit (%) 40.3 Plasticity index 21.9 Humidity 0 m 0.2 m (%) 15.0 Humidity 0.2 m 0.4 m (%) 19.0 Average apparent density (g/cm 3 1.2 ) Average resistance to penetration (kg/cm 2 2.4 ) Table 1 Physical-mechanical characteristics of the test soil. TEST RESULTS During the tests, after establishing the best gear for the tractor (4 th ) compatibly with the conditions for working the test soil, engaging the double drive and differential lock, moving the accelerator lever to the position of maximum delivery, the functional and operational characteristics (referring to the hectare) were established and are shown in table 2. The results of the analysis of the breaking up of the soil by the tiller are shown in figure 2. The implement was fitted with a completely closed rear levelling casing and caged rollers in order to prepare the seedbed first sweep. The specific average power output was the same at 1.04 kw/m. cm (per operating width and working depth meter on the worked terrain), while the average specific force was 1.82 dan/m.cm (per meter of effective width and centimetre of depth on the worked terrain) with very fast operation. Tractor slip was positive, and was any way kept with in absolutely negligible limits. It can also be seen from table 2 how the theoretical working width has been used to 98,8%, while the depth of the worked level is m 0.17 with soil settling at m 0.16. From the examination in figure 2 it can be seen that the passage of the tiller over ploughed soil has meant outstanding refinement. The relative index in fact went from 0.48 of the ploughed soil to 0.82 of the tilled soil with a clod reduction of 41.7%; furthermore it enabled the elimination of the large clod classes to be eliminated and the aggregates less than 10 mm to 48% of the total of the mass of the crashed soil. The consequent seedbed quality index (ratio between mass of clods with diameters 10 mm / mass of clods with diameters > 10 mm) was 0.93 thereby guaranteeing a good substrata for seeding and subsequent germination. The joint effect of the rotary implements and the rear casing levelled the soil well and considerably reduced the roughness of the surface producing soil levelling of 85,0%. 5/8
Elements Performance average engine speed (rpm) 2130 average power take off rotation speed (rpm) 1119 average rotor speed (rpm) 289 theoretical working width (m) 4.20 effective working width (m) 4.20 operating working width (m) 4.15 use of working width (%) 98.8 working depth on soil worked (m) 0.33 worked layer (m) 0.17 settling (m) 0.16 worked section (m 2 ) 1.37 effective work time (h/ha) 0.53 operating work time (h/ha) 0.64 operating yield (%) 83.2 average effective speed (km/h) 4.55 operating working capacity (ha/h) 1.57 hourly fuel consumption (kg/h) 36.8 unit fuel consumption (kg/ha) 23.5 average traction force (dan) 253 average torque at the PTO (danm) 118.5 average power at the PTO (kw) 138.9 average traction power required by the soil working * (kw) 3.2 total average power output required (kw) 142.1 specific average power output (kw/m.cm) 1.04 tractor slip (%) 1.3 Table 2 average results obtained with the rotary tiller. (*) Overall power output expended for the traction of the implement, excluding the loss of transmission due to forward motion empty, sliding and the power output required for the tractor s hydraulic functions. 25% 29% >200 100 200 50 100 25 50 10 25 <10 48% 10% 18% >200 100 200 50 100 25 50 10 25 <10 14% 14% 8% 10% 24% Figure 2 Clod incidence of the soil before and after the tiller has passed (the legend shows the size classes of the clods in mm). 6/8
Tiller model Valentini series Working width Operating capacity Average Power at Flanges Mass without accessories "Maxi Squalo" (m) (ha/h) PTO (kw) (n ) (kg) 4700 4.7 1.76 156 18 2190 5200 5.2 1.96 173 20 2450 Table 3 Assessment of the operating capacity and the power output required at the tractor PTO of the other rotary tiller models in the "Maxi Squalo" series manufactured by Valentini. The values are to be considered valid for working conditions identical to those seen during the tests carried out on the "Maxi Squalo 4200". REMARKS ON FUNCTIONALITY The Valentini Maxi Squalo 4200 rotary tiller has proved to perform an optimal working of the soil in a single sweep while working at the maximum working depth, on very tough silt-clay soil with high degree of surface clods. The implement show a high soil refinement index and an excellent degree of soil levelling. Therefore good results can be obtained on difficult soil conditions. Coupling to a 176 kw tractor appeared to be correct for the difficult test conditions, considering the constant power requirement at the tractor s power take off and the low power output necessary for the traction of the implement, given the pushing action of the rotor. Nonetheless a tractor with a lower power output, as indicated by the manufacturer may be more suitable particularly when the soil is lighter. RECOMMENDATIONS AND INSTRUCTIONS The rotary tiller is provided with a multilingual user and maintenance manual in compliance with current regulations. ROAD CIRCULATION For the purposes of the Italian Highway Code the machine is classed as a mounted agricultural machine and is therefore an integral part of the tractor (art. 57, Law Decree n. 285 dated 30/04/1992), registration is not required and it may circulate according to the tractor s mass and pivot ratios and the necessary signs. SAFETY CHECK The machine is fitted with the CE mark, an identification plate and safety pictograms as required by ISO standard 11684:1995 and is provided with an user and maintenance manual and declaration of conformity. The manufacturer declares that the machine conforms with the technical standard: UNI EN 708:1998; EN 708/A1:1999; EN 1553:1999. From the examinations effected and no discrepancies were found with what the manufacturer had declared. The relevant documentation is deposited in the papers. MODELS IN THE SAME SERIES From tests carried out on the Valentini Maxi Squalo 4200 tiller and on the basis of the results in table 2, it can be assumed that under same test conditions and for a different number of flanges, the values shown in table three can be obtained. Table 4 shows the other tiller models for which an extension to this test report has been issued.. Cert N Model Serial N 03-031b MS 4700 324 03-031c MS 5200 325 Table 4 Other tiller models for which an extension of this test report has been issued. 7/8
THIS TEST REPORT IS VALID FOR FIVE YEARS FOR ALL MAXI SQUALO 4200 MODEL ROTARY TILLERS AND RELATIVE EXTENSIONS AND IS OFFICIALLY RECOGNISED BY ALL THE MEMBERS OF ENAMA: ASSOCAP (Associazione Nazionale dei Consorzi Agrari) CIA (Confederazione Italiana Agricoltori) COLDIRETTI (Confederazione Nazionale Coltivatori Diretti) CONFAGRICOLTURA (Confederazione Generale Agricoltura) UNACMA (Unione Nazionale Commercianti Macchine Agricole) UNACOMA (Unione Nazionale Costruttori Macchine Agricole) UNIMA (Unione Nazionale Imprese Meccanizzazione Agricola) AS WELL AS BY BOARD OF GOVERNORS OF ENAMA IN WITCH ARE REPRESENTED TOO: MIPAF (Ministero per le Politiche Agricole e Forestali) Regioni e Province Autonome ISMA (Istituto Sperimentale per la Meccanizzazione Agricola) THE TEST RESULTS ARE RECOGNIZED BY THE FOLLOWING TESTING STATIONS BELONGING TO ENTAM, WITH THE FOLLOWING NUMBERS: BLT - Bundesanstalt für Landtechnik n I - 050/00 (Rottenhauserstraβe 1, A-3250 Wieselburg, AUSTRIA) DLG - Deutsche Landwirtschafts-Gesellschaft e. V. n I - 4904 (Eschborner Landstraβe 122, D-60489 Frankfurt am Main, GERMANY) is the European Network for Testing of Agricultural Machines and its purpose is to promote a cooperation among testing stations in order to optimize activities and give a better service to farmers, dealers and manufacturers. E ENAMA - ENTE NAZIONALE PER LA MECCANIZZAZIONE AGRICOLA VIA LAZZARO SPALLANZANI, 22/A - 00161 ROMA PH. 06/4403137-4403872 FAX 06/4403712 email: info@enama.it http://www.enama.it 8/8