Spray application guide Nozzles and accessories for

spray technology
110
Spray application guide
Nozzles and accessories
for agriculture
Einspülchleuse
Contents
Continuous
internal sprayer
rinsing
page 24
zur Spritze
Rinsing
Filling
QuantoFill M
Steuereinheit
QuantoFill M
automatic
proportioner
page 26 ff.
easyFlow
closed transfer
systems
page 30 ff.
spray technology
Contents
Nozzle guide
Nozzles
Continuous internal sprayer rinsing
QuantoFill M automatic proportioner
easyFlow closed transfer systems
page
page
page
page
page
2 ff.
6 ff.
24
26 ff.
30 ff.
Spraying
Nozzle guide
page 2 ff.
spray technology
Nozzles
page 6 ff.
1
Nozzle guide cereals
Cereals
HERBICIDES
AirMix®
TD® HiSpeed
GROWTH REGULATORS
TD® ADF
TD® HiSpeed
SMALL GRASS WEEDS
FUNGICIDES
TD® HiSpeed
INSECTICIDES
BBCHCode
EAR TREATMENT
TD® ADF
TD® HiSpeed
AirMix®
TD® HiSpeed
TD® HiSpeed
AirMix®
09 11 13 21 25
29
30
31
32
37
39
49
51
59
61
69
71-92
Herbicides
Fungicides
Insecticides
Using dual fan nozzles insures a better reach of “hidden”
weeds, while spraying areas covered with organic
material, especially when using asymmetric dual fan
nozzles with different angles of penetration. The
coverage on small leaf weed grass improves as well.
Spraying growth regulators requires a coarse spray to
reduce drift risk, important when spraying close to
sensitive neighbour crops or non-agricultural areas.
When Spraying contact
fungicides at late development stages, the use of
dual fan nozzles is a “must”.
When using TurboDrop®
nozzles, increase pressure
to reach medium droplet
size, if conditions permit.
For contact fungicides use
nozzles at a pressure range
where droplet size is medium,
if permitted. Using dual fan
nozzles will improve coverage, even where spray has to
be coarse to reduce drift or
because of legal restrictions.
2
spray technology
Nozzle guide corn
HERBICIDES
Corn
AirMix®
ozzle
n
r
u
o
k
c
e
h
C
n
calculator o
p.com
o
t
o
r
g
a
.
w
w
w
TD® HiSpeed
TD® ADF
TD® HiSpeed
SMALL GRASS WEEDS
INSECTICIDES
TurboDrop®
BBCHCode
00
11
12
13
14
15
17-32
34
Herbicides
Insecticides
At initial growth stages TD HiSpeed nozzles will
permit higher application speeds. Where drift
reduction is required select nozzle size/type
with at least coarse spray quality.
From growth stage 32 onwards, hose drops can
be used for root/stem treatment with insecticides
or fungicides, also in combination with liquid
fertiliser. Adjust hose drop height to prevent spray
pattern from reaching green parts of the plant.
For late application of liquid fertiliser, the use of
hose drops is highly recommended.
spray technology
53
3
Nozzle guide potatoes
Potatoes
HERBICIDES
TD® HiSpeed
TD® HiSpeed
DESSICATION
AirMix®
FUNGICIDES
TD® HiSpeed
TD® ADF
TD® HiSpeed
INSECTICIDES
LATE FUNGICIDES
TD® HiSpeed
00-09
10-19
POST HARVEST
PROTECTION
TurboDrop®
EARLY FUNGICIDES
BBCHCode
AirMix®
20-29
30-39
40-49
50-59
AirMix®
60-69
70-79
80-89
91-93
95-97
Herbicides
Fungicides
Insecticides
Use at least coarse spray for
desiccation. TD HiSpeed nozzles
are coarse at lower pressure
plus the asymmetric dual fan
improves coverage helping
to reach hidden leaves for complete leaf burn of the crop.
Using TurboDrop® nozzles at higher
pressure, while spraying coarse,
improves penetration into dense
canopies. Reducing application
speed will result in a better penetration; this is also recommended
when using TD HiSpeed nozzles.
Adjusting speed and application rates
in accordance with the leaf area helps
to guarantee efficacy of the application.
For best penetration, limit application
speed even when using asymmetric
TD HiSpeed nozzles.
4
spray technology
Nozzle guide canola
HERBICIDES
Canola
TD® ADF
TD®
HiSpeed
AirMix®
FUNGICIDES
TD® HiSpeed
TD® ADF
TD® HiSpeed
TurboDrop®
INSECTICIDES
BBCHCode
TD® HiSpeed
TD® HiSpeed
AirMix®
00
10
12
14
18
TD® HiSpeed
32
51
55
57-59
61
65
69
Herbicides
Fungicides
Insecticides
Asymmetric dual fan nozzles
can better target weeds
covered by broad rape leaves,
as well as small grass weeds,
before they appear in-between
the crop. Spray coarse under
drift conditions.
At late development stages and
in dense canopies respectively,
using TurboDrop® nozzles at
higher pressures, while spraying
coarse to medium, has proven
good results. Use coarse where
drift reduction is required.
Treatments against canola
pollen beetle at flowering
show excellent results using
the TD HiSpeed nozzles.
For best penetration and
efficacy in dense canopies
reduce application speed.
spray technology
5
Application professionals
opinion on asymmetric
TurboDrop® HiSpeed nozzles
Sonderdruck aus den DLG-Mitteilungen 1/2010
»The costs of the spray nozzles are bits and pieces compared to the spending for
a complete sprayer or the chemicals used in one season. Thus only get the best
of the best.«
(»Nozzle technology: Decisive interface«, published in profi 02/2011)
»The costs of the spray nozzles appear high, but are more than reasonable
considering their performance, longevity and the low application expenses
per acre.«
H
albe Wassermenge gleich
doppelte Schlagkraft: Dies
ist eine gewagte These, über
die derzeit viel diskutiert wird. Praktiker experimentieren schon länger mit
der Wassermenge; 170 bis 180 l sind
keine Seltenheit mehr. Da reizt es natürlich, den großen Schritt zu gehen
und auf 100 l/ha Wasser und weniger
zu reduzieren. Das spart nicht nur
Wasser, sondern auch Diesel und Zeit.
Aber liefert solch eine Anwendung
bei der Bekämpfung von Pilzkrankheiten des Getreides tatsächlich
gleichwertige Ergebnisse zur üblichen
Standardanwendung mit 8 km/h und
200 l/ha?
PSP
...aber auch weniger Wirkung? Kosten senken heißt heute oft:
Schneller fahren mit 14 km/h und weniger als 200 l/ha.
Harald Kramer stellt einen Großversuch mit Fungiziden vor,
der die Grenzen auslotet.
Sonder
druck
Was die
Düsen neuen
bringen
aus den
DLG-M
itteilun
gen 3/2
010
Wird eine Stellschraube im Spritzsysordneten
tem verändert, zieht dies automatisch
wenigste Zielobjekten
eine ganze Reihe weiterer Verändevermieden
spricht ns reduziert
oder
rungen nach sich.
von »Run
werd
dum-Bele en. Man
Mit der
Viele Praktiker wollen mehr
Behältergrößen und Arbeitsbreiten
Düse kom so genannte gung«.
Schlagkraft beim Spritzen.
liegen in derDie
Regel
betriebsübneuim
e Gen
der der mt eine Varia n HiSpeederat
lichen Optimum.
Hier gibt es nur
wevordere
nte
ion der
weniger
der zwei
Spritzfäch hinzu, bei
Doppelf
nig Spielraum. Um
eineSpri
weitere
Leistzschatt
lachstra
Senkrech te Spritzfächer er nur 10°,
Knewitz
tungssteigerung
zu erreichen, wirden und
BASF und Jan Juister
sowie
ten steht
aber 50°
hldüdie
senLandrische
eine bes
und Her
verspric
Spritzfäch . Diese asym zur
heute auf vielen Betrieben
schneller
wirtschaftskammer
sere Nordrhein-Westibert Koc
ht
Rund
eranordu
metBen
-umetzung.
gefahren und/oder einfach weniger
falen
gemeinsam einen
Großversuch
h hab
sern, insbeBelegung weit ng soll die
en das
Horst
Wasser verwendet. Die Betriebe wolauf drei Praxisflächen
drei Bundesunteinrsuc
er verb
geschwin sondere bei
ht. liehöheren eslen mit dieser Strategie sowohl die
ländern angelegt. Die Standorte
cheranor digkeiten. Eine
FahrAnwendungszeitpunkte besser treffen
gen in Sachsen (Groitzsch in der Nähe
Vorteil, dnung hat aber solche Fädass das
als auch die Arbeitserledigungskosten
von Dresden), Westfalen (Unna bei
höheren
rauchen
Feldspritzauch den
Landeiner resenken. Bei derDop
Verwendung
Dortmund) und Niedersachsen (Huntgerät bei
spritzt Beständen nich
pelflachs wirte überhaup
wird.
t direkt
duzierten
Wasseraufwandmenge
losen
Oldenburg). Die gewählten
trahldüse
t beiDies
se
angeFrage
Jahren
e Dop
wird unzurei-n? Diesteigt allerdings
Risiko
Strategien
lassen
sich
so beschreiben:
pelfl
oft das
Untersuc
diskutiert. in den
sich 200
aufWirkungen,
deshl/ha,
8 achs
und trahl
Wer mit der Wasseraufwandmen14 km/h
chender
ist letzt●enStandard:
diese Frage gleichzeitig
hung
düsen
alb nich
Weil Antw
Kartoffel
en in Weiz
t durc
BadAbdriftgefahr
orten
● Modern: 150 l/ha, 8 und
ge spielt, der muss vor allem den
14 hges
km/hetzt.haben
auch die
erhöht.
sind, hat
en und
Kreuznac rar
wurden n. Unsere Bela
in
das DLR
h
Heul/ha,
Jahren
in
● Risiko: 100
km/h
Einfluss der Düsentechnik und der
tige 14
in Weiz den Jahren gsmessungen
Belagsme in den letzt
Doppelfl
sindVersuchen
2007 bis
en drei In den
bestä
en und
Injek
ssun
kamen zwei
Fahrgeschwindigkeit berücksichtigen,
unAber
zunden
diesen
Zusammenhängen
achstrahl
führt.
rung erfol tordüsen, d.
angestellt gen in Pflanzendüsen
Die Einsa Kartoffeln durc2009
tersu
terschiedliche
Düsentypen zum
um die Wirksamkeit besonders der
gibt es
kaum
Aus
h. Eincht,Versuchsergebnisse.
den Vers
inwiewei . Wir habe
tzbeding
hgeEingang gt an der Dosi die Dosiesche
n
ungen
t Unte
die Airmix als KomFungizide zu unterschiedlichen Eindiesem
Grund
haben im
vergangenen
n Flach
Wir besc uchen zeigt
rschiede un-satz (Übersicht):
bei
bei Injek zum Düsenkan erblende am
die
ldüsenAmazone,
sowie die TD Hisatzterminen beurteilen zu können.
Jahr flach
die strah
Firmen strah
Agrotop,
stellung hränken uns hier Übersicht.
und Dopzwi-pakt-Injektordüse
cher. Nurtordüsen mit al genau wie
Zielobjek ldüsen an
bei der
einem
als Doppelflachstrahldüse.
nisse für auf den Weiz
verschied pel- Speed
DarSprit
dung finde Zerstäubung
en.
lagsmessuten nachweis
enen Behandelt
wurde zu den drei üblichen zfäDLG-Mit Kartoffeln sind Die Ergebbar
zwei Öffn n am Düse und Strahlbilder Sprit ngen heißt: Unte sind. Be- Fungizid-Terminen
teilu
über
naus
32),
ngen.de
ungen T1 (Stadium
zbelag,
Die Versuchsvarianten auf
Wie
statt. Dam tritt durch
zugänglic www.
d. h. die rsucht wird T2 Vorte
ile von
(Stadium
37/39
49/51)
und
Blätt
sungen sehen solch
it sind
Injekbzw.
e Bela h.
aus? Wie
Papier, ern! Denn wassBelagsmasse T3insbe
sondere
(Stadium
63).das
Dietordü
Fungizide
wa-alle
sen gege
Foto deut
gsmesStrategie
Zeitpunkt
Düsentyp
km/h
l/ha
bar
das
das nebe
und
ben,
Messunge gelegentlich ersensitives ren
abdriftfes
nnte
Capalo
zuteT1, beka
Champion-Diatorfarbsto lich zeigt, wurd nstehende
für
n
Tropfensp , grobere
Die
Standard
T1/T2
Airmix 1 10zur
03 Bew 8 herangez
200ogen dera
3,5 rtige
e der Indik
beid
mant
zu T2
und
zu T3.
Umm.
Unektru
sammen ff Natriumfluore
en Osiris
ertung
pelflachs
Spritzfäch
awird,
von Bela
der Bela
mit eine
scein
ist terschiede
zwischen
lichen
von Dop
düsen denerVarianten
gsve
T3
Airmix 1 10
03
8
200 gsma 3,5
meist 30°trahl
Pflanzens m in der Kultu zu(sieh
warewurden
e Kaste rteilung nich ssen und
besser
sehen
zu vorn
können,
n und die- nach
bracht.
r übSenkrech
t geeig
n
sind
Das ist chutzmittel
e und hinte
Standard, schnell
T1/T2
TD HiSpeed 04
14 auf Seite
200
6,2 net
teninausg
se jeweils
reduzierter
Aufwandweil Pflan
ausge3).
besonder
ein
n zur
Spritappliziert.
s wich
Doppelfl
zschatten erich
menge
Diesetet.
Versuche
rung und zenschutzmit
Damit solltig,
achstrahl200
T3
TD HiSpeed
6,2
soll
tel
bei
zwei04fäch 14
vertikalgleicherten zeigen, ob alle Strategien
düse
rend beei die Belagsbil die Anlageangemige Flach n erzeugen
sprünglic erför
dung
nflussen.
maßen zum Erfolg führen. Sie sind
Modern
T1/T2
Airmix 110 025
8,5
150
3,3
Anschließ gravieDie Ein zu reduzierten Mit- ben wir die zu unte
der Senk h mit 30° Abw strahlen, urkeine Empfehlung
rechten
eichung 6,4
satzbed
rsuchende end hahinten.
T3
TD HiSpeed
03
14
150
n Pflan
telmengen
Datu
Solche nach vorn und von
m ES in der Praxis. ingungen
gibt es
Düsenkon
nach
in
Injek
Risiko
T1/T2
TD HiSpeed 02 seit viele
14
100
6,2
den Ver
tor
den 80er
n Jahre struktionen
suchen
2009 war ein Jahr mit sehrDopp
spätem
n:
Jahren
elsentypen
T3
TD HiSpeed
02
14 wurden100 Bereits6,2
23.Krankheitsdruck
flachs sich
feintropfig
Mai
solche in
AirMix im Weizen, wastrahl
ten. Die für Feldspritz
Dü110 03Befallsbonituren
2007
64
l/ha
bzw. HiSpe
geräliegt
besonders
in den
Die Düsen werden jeweils im pflanzenbaulich optimalen
Bereich
Dieser
im oberen
damgefahren.
te ange
bar km/h
als verfü
hatten
ed
boDruckbereich der eigentlichen Empfehlung des Herstellers.
gbaren
und den Ertragsergebnissen niederaber
mehrere
Nachteile
Düse
AVI Twin
gravieren n
110 025
lung allei . Weil Dosierun
AVI 1100
28. Mai
–1–
2,5
4
g und Vertede
n durc
200
schnitt
2008
51
der Düseh den Austrittsq i7
3,7
wurden,
nöffnung
uerAVI Twin
keitsmen musste bei gleic bestimmt
11004
200
öffnungenge jede der beid her Flüssig185
AirMix
9. Juni
Düse mit kleiner sein en Austritts7,3
110 03
HiSpeed
16
11004
2008
65
halb war nur einem Sprit als bei einer
185
maligen die Zerstäubungzfächer. DesAVI Twin
Typen
110 025
mit den
extrem
mit auch
3,8
dafeint
stopfungs sehr driftanfäll ropfig, da200
IDN 120
27. Mai
anfä
ig
5,3
und
llig.
03
XR
war span
110 03
Die Düse
ver8
2009
59
nfertigun
dazu führtabhebend, was
3,8
g
AVI Twin
ren und e, dass die Düsein der Praxis
110 03
toleranze außerdem groß n teuer wa200
war eine n aufwiesen. e FertigungsIDN 120
10. Juni
8
HiSpeed
Das Erge
03
schlechte
12
110 03
2009
64
Quervert bnis
eilung.
AVI
Pflanze
nschutz
-Praxis
Asymmetric TurboDrop® HiSpeed or TD ADF is nozzle technology that
pays off. Proven by independent test reports and millions of farmers
around the world.
Weniger Wasser,
weniger Mittel...
B
Twin 110
– 1–
03
HiSpeed
200
110 03
8
12
(»Which benefit brings the new TurboDrop® HiSpeed«, published in Pflanzenarzt 11+12/2009)
The complete publications and further articles can be found
on our homepage (German) www.agrotop.com/berichte
Farm application professional using
TurboDrop® TD ADF 110-03 and -04
Rustin Gilder from Crowley Grain Dryer in Crowley Louisiana, USA
Crops: Rice and soybeans
These nozzles give great coverage, on top and down into the canopy of our crops.
Easy to maintain and clean. They spray deeper into the canopy. Coverage is worth paying for!
(Rustin uses the TD ADF nozzles at 15–23 mph, rates are around 10 GPA.)
Contract application professional using
TurboDrop® HiSpeed 110-04
Matthias Kappe, Thüringer Landdienste GmbH, Lemnitz, Germany
Spray contractor
We, the TLD GmbH, are a professional application specialist in the region of east Thuringia.
Using the TurboDrop® HiSpeed nozzles 110-04 enables us to adjust our sprayers easily to the changing humidity
and temperature conditions while spraying in the field. In addition the TurboDrop® HiSpeed nozzles allow us to
increase our applications speed and therefore our area capacity.
6
spray technology
TurboDrop® HiSpeed
Innovative nozzle technology
+ –
speed
c
re
p
i
yd
ra
*s
n
tio
*
*
let
rop ry
* d jecto
tra
t
ple y
dro ctor
je
tra
spray
direction
speed
+ +
Flat Fan nozzle
TurboDrop® HiSpeed nozzle
▪ Creates spray “shadow” at the backside of the
leaf/stem
▪ All around coverage of front and back side of the
plant
▪ Less coverage at lower leaf canopy levels at higher
application speeds
▪ Downwards front pattern for good penetration to
stem base especially at reduced application speeds
Six good reasons for using
asymmetric dual fan TurboDrop®
nozzles HiSpeed or TD ADF
▪ TD HiSpeed nozzles are officially listed for drift
reduction for 90 % / 75 % / 50 % in Germany
and other countries
▪ A nozzle that nearly covers all applications and
crops – fewer changes of nozzles required
▪ 2 in 1 functionality – front spray similar to
standard single flat fan nozzle, back spray with
elevated spray pattern, optimising coverage
▪ Excellent results at low, medium and high
application speeds
▪ TD ADF; economical long lasting poly version
▪ Low variation of droplet size over a wide
pressure range guarantees a constant spray
quality
TD HiSpeed 110-025 herbicide application in sugar beets
spray technology
7
TurboDrop® HiSpeed
Size
Spray angle
2 x 110°
Pressure range
2 to 8 bar
Best performance
using pressure
3 to 7 bar
Boom height
40 to 60 cm
Orientation of
spray patterns
50°/10°
Application
Boom spraying, Horticulture
Advantages
▪ Asymmetric orientation of the two spray
patterns
Filter
JKI
110-015
Filter 50 M blue
110-02
Filter 50 M blue
G 1819
110-025
Filter 50 M blue
G 1896
110-03
Filter 50 M blue
G 1820
110-04
Filter 50 M blue
G 1821
110-05
Filter 24 M red
G 1822
110-06
Filter 24 M red
110-08
Filter 24 M red
TD HiSpeed: most suitable for
ear treatments in cereals
▪ Compact design
▪ High drift reduction maintaining excellent
coverage
ear treatments
4 –7 bar
▪ Perfect for fungicide, insecticide and
post-emergence treatments
▪ Ceramic parts made from strong, high quality
pink ceramic
▪ Easy assembly and
disassembly,
even with gloves,
no tools required
ttern
10° front pa
ing
avoids spray
ucture
on boom str
110-02
G 1819
8
110-025
G 1896
BBCHCode
110-03
G 1820
51
110-04
G 1821
59
61
69 71-92
110-05
G 1822
90 %
––
at 2.5 bar
––
at 2 bar
––
75 %
2 to 3 bar
up to 3.5 bar
up to 2.5 bar
up to 3 bar
2 to 3 bar
50 %
up to 5 bar
up to 6 bar
up to 4 bar
up to 6 bar
up to 8 bar
spray technology
TurboDrop® ADF
Size
Filter
110-01
Filter 50 M blue
110-015
Filter 50 M blue
110-02
Filter 50 M blue
110-025
Filter 50 M blue
110-03
Filter 50 M blue
110-04
Filter 50 M blue
110-05
Filter 50 M blue
110-06
Filter 24 M red
110-08
Filter 24 M red
110-10
Filter 24 M red
110-15
Filter 24 M red
Spray angle
2 x 110°
Pressure range
1.5 to 8 bar
Best performance
using pressure
2 to 4 bar
Boom height
40 to 60 cm
Orientation of
spray patterns
50°/10°
Application
Boom spraying, Horticulture,
Special applications
Advantages
▪ Asymmetric orientation of spray pattern to
improve application quality at any speed
▪ Compact design, easy disassembling
of individual spray tips
▪ Good drift control an excellent coverage
of vertical and angular targets
▪ 10° forward angle prevents forward pattern
from spraying on boom parts or wheels
▪ Application speeds from 6–15 km/h or more
▪ Suitable “all-around” nozzle
▪ 80° spray pattern also available for individual
adjustments
Fungicide application in soybeans using TD ADF 110-03
spray technology
9
TurboDrop® TD
Size
Spray angle
110°
Pressure range
2 to 10 bar
Best performance
using pressure
Pesticides: 4 to 8 bar
Liquid fertiliser: 2 to 3 bar
Boom height
60 to 90 cm
Application
Boom spraying
Advantages
▪ Small droplet size variation over pressure range
Filter
110-01
Filter 50 M blue
110-015
Filter 50 M blue
110-02
Filter 50 M blue
110-025
Filter 50 M blue
110-03
Filter 50 M blue
110-04
Filter 24 M red
110-05
Filter 24 M red
110-06
Filter 24 M red
110-08
Filter 24 M red
110-10
Filter 24 M red
JKI
G1610
▪ Excellent drift reduction, even at higher
pressure
▪ All ceramic parts are made from extra strong,
high quality pink ceramic
▪ This guarantees maximum wear resistance
and accuracy
▪ Excellent penetration using higher pressure
▪ Wide range of pressure and application ranges
▪ Easy assembly and disassembly, even with
gloves, no tools required
▪ The perfect solution for large farms and
contractors
TurboDrop® nozzles are easy to disassemble for cleaning
10
spray technology
TurboDrop® TD-XL
Size
Filter
110-01
Filter 50 M blue
110-015
Filter 50 M blue
110-02
Filter 50 M blue
110-025
Filter 50 M blue
110-03
Filter 50 M blue
110-04
Filter 24 M red
110-05
Filter 24 M red
110-06
Filter 24 M red
110-08
Filter 24 M red *
110-10
Filter 24 M red *
110-15
Filter 24 M red *
Spray angle
110°
Pressure range
1 to 8 bar
Best performance
using pressure
Pesticide: 2 to 4 bar
Liquid fertiliser: 1 to 2 bar
Boom height
60 to 90 cm
Application
Boom spraying
Advantages
* most applications
require no extra
nozzle filter
The TurboDrop® TD-XL nozzles use as a distribution
nozzle a TipCap which is exactly twice the size of the
TurboDrop® injector. For example, a TD-XL 110-04
nozzle consists of a red injector (ISO code for size 04)
and a white TipCap (ISO code for size 110-08), but flow
rate is determined by the red injector.
▪ Variable droplet spectra from coarse to fine
as pressure increases
▪ Excellent drift reduction, especially at lower
pressure
▪ Offers a wide range in terms of pressure and
droplet size
▪ Easy cleaning, only two parts, no small parts,
no fumbling
▪ Distributing nozzle/cap is a TipCap nozzle
▪ Perfect if application conditions and application
rates change frequently
▪ Maximum wear resistance in the semi-ceramic
version (injector with ceramic orifice coated in
POM)
▪ Best price for excellent quality
spray technology
11
AirMix® Flat Fan
Size
Filter
JKI
110-01
Filter 50 M blue
110-015
Filter 50 M blue
110-02
Filter 50 M blue
110-025
Filter 50 M blue
Pesticide: 2 to 4 bar
Liquid fertiliser: 1 to 2 bar
110-03
Filter 24 M red
G1637
Boom height
40 to 90 cm
110-04
Filter 24 M red
G1631
Application
Boom spraying,
Knapsack sprayers
110-05
Filter 24 M red
G1638
Spanner width
8 mm
110-06
Filter 24 M red
Spray angle
110°
Pressure range
1 to 6 bar
Best performance
using pressure
Advantages
▪ Two-piece design, no tools required for
opening, no seals
▪ Air cleaning system, no blocking of air entrance
▪ Droplet size adjustable from coarse to fine by
pressure
The AirMix® nozzle – How does it work?
The metering orifice at the bottom of the injector
controls the flow and creates a jet. This jet passes a
second orifice where it takes in the air. The air stream
is cleaned by passing through the spray pattern,
preventing the orifice from clogging.
▪ Up to 90 % drift reduction
▪ Wide application range from 40–1000 l/ha
▪ Fits in standard and double flat fan cap ADF
✓ Compact design, only 22 mm,
slightly more than a standard tip
✓ Easy disassembly for cleaning
✓ Air suction from below through
the spray fan
12
rn
te
at
yp
ra
Sp
✓ Metering orifice easy accessible,
blockage can be wiped off
Droplet
with air
bubbles
spray technology
AirMix® OC
Size
Filter
JKI
OC 02
Filter 50 M blue
OC 025
Filter 50 M blue
G1887/1891
OC 03
Filter 50 M blue
G1888/1892
OC 04
Filter 24 M red
G1889/1893
OC 05
Filter 24 M red
G1890
Spray angle
80°
Pressure range
1 to 6 bar
Application width = approx. 2.3 x
application height
Application
Boom spraying,
Band spraying,
Knapsack sprayers
Spanner width
8 mm
Advantages
▪ Two-piece design, no tools required for
opening, no seals
▪ Air cleaning system, no plugging of
air entrance
▪ High drift reduction
▪ Wide application range
▪ Same flow rate as corresponding flat fan nozzle
▪ Suitable as end nozzle on booms in
combination with AirMix® flat fan nozzles
Herbicide band spraying using AirMix® OC
spray technology
13
Knapsack Spraying
AirMix® HC
Size
80-025
Filter
Filter 50 M blue
Constant flow valves CF
Spray angle
80°
Size
02 to 03
Constant pressure/flow relief valves for use with single
nozzles or in pressure pipes with flows up to 2 l/min.
Pressure range 1 to 6 bar
Boom height
50 to 90 cm
Application
Boom spraying, Band spraying,
Knapsack spraying, Horticulture
Spanner width
8 mm
Advantages
▪ Two-piece design, no tools required
for opening
▪ Air cleaning system, no blockage of
air entrance
▪ High drift reduction
Easy assembling between sprayer lance and nozzle
▪ Wide application range
▪ Uniform droplet spectra
▪ On a broadcast boom, horizontal distribution
of pattern is less uniform compared to flat fan
▪ Particularly suitable for knapsack, as nozzles
can be operated at low pressure
▪ Fits in caps with spanner width of 8 mm,
commonly used on most sprayers
50 mesh filter before CF-valve is recommended
14
spray technology
Knapsack Spraying
AirMix® AN
Size
Filter
130-02
Filter 50 M blue
130-025
Filter 50 M blue
130-04
Filter 24 M red
Advantages of using CF valves
▪ In combination with a CF valve a AirMix® nozzle
would always work at a constant flow rate in the
selected spray quality
▪ Important, if coarse spray quality is needed
for drift reasons
▪ Avoiding pressure peaks helps to keep the drift low
▪ Fatigue or different individual performance of the
knap sack sprayer operator will not affect nozzle
flow rate
Spray angle
80° – 130°
Size
02 to 04
Pressure range 1.5 to 3.0 bar
Boom height
Variable
Application
Knap sack, small herbicide
booms
Spanner width
Threaded cap
Advantages
▪ Two-piece design, no tools required
for opening
▪ High drift reduction
▪ Wide angle spray pattern
▪ Spray quality coarse to extra coarse
▪ Even spray distribution, suitable for band
spraying
▪ Particularly suitable for knapsack, as nozzles
can be operated at low pressure
▪ Fits in 3/8’’ threaded caps or round hole
bayonet cap
▪ Allows low application heights for max. drift
control
AirMix® AN-04 in combination with CF-valve 2.0 bar (blue),
flow 0,98 l/min
spray technology
15
Knapsack Spraying
Spray Max
Size 110
Spray angle
110°/80°
Size
01 to 10
Size 80
Filter
110-01
80-01 *
Filter 50 M blue
Pressure range 1 to 4 bar
110-015
80-015 *
Filter 50 M blue
Boom height
40 to 60 cm
110-02
80-02 *
Filter 50 M blue
Application
Boom spraying,
Knapsack spraying
110-025
80-025 *
Filter 50 M blue
Spanner width
8 mm
110-03
80-03
Filter 50 M blue
110-04
80-04
Filter 50 M blue
▪ Flow rates in accordance with ISO standards
110-05
80-05
Filter 50 M blue
▪ High accuracy due to minimising variability
in production
110-06
80-06
Filter 24 M red
110-08
80-08
Filter 24 M red
▪ High durability
110-10
80-10
Filter 24 M red
▪ Fits in caps with spanner width of 8 mm,
commonly used on most sprayers
110-15
Advantages
▪ Wide pressure range and application rate
16
Filter 24 M red
* on request
spray technology
Filters and
ball check valves
New design
Filters fit on all nozzle holders,
conform to ISO 8169
Strainer F
Mesh
Colour
bottom/top
24 M
red
50 M
blue
100 M
green
200 M
pink
Ball check strainers KVF
spray technology
Mesh
Colour
bottom/top
Opening
pressure
24 M
red/white
0.3 bar
24 M
red/grey
0.7 bar
24 M
red/black
2.8 bar
Mesh
Colour
bottom/top
Opening
pressure
50 M
blue/white
0.3 bar
50 M
blue/grey
0.7 bar
50 M
blue/black
2.8 bar
Mesh
Colour
bottom/top
Opening
pressure
100 M
green/white
0.3 bar
100 M
green/grey
0.7 bar
100 M
green/black
2.8 bar
17
Nozzle for liquid fertiliser
applications
Recommended application technologies at different crop growth stages in cereals
hose drops
EXA/ESI®
AirMix®
TD VR MK II
6-stream
TurboDrop®
ozzle
Check our n
n
calculator o
p.com
www.agroto
BBCHCode
21
25
29
30
31
32
37
39
49
51
59
61-69
71-92
Application options for liquid fertilisers
▪ Single flat fan venturi nozzles with extra coarse
spray quality, like AirMix® or TurboDrop®, are
suitable for fertiliser applications at low pressure
▪ Liquid fertilisers and PPP (plant protection
products) can be applied together, use spray
nozzles
18
▪ Using special 3- or 6-stream fertiliser nozzles will
reduce the risk of leaf burning
▪ Distribution with 6-stream nozzles is slightly
better
▪ At late crop growth stages, the use of hose drops
is recommended
spray technology
AN – 1/2 M
Spray angle
110° to 140°
Size
Company standard
Pressure range 0.5 to 3.0 bar
Boom height
40 to 60 cm
Application
Boom spraying,
Special applications
Slurry application using AN-1/2 M nozzles
Advantages
The AN-1/2 M high flow nozzle is designed for
applications of highly viscous molasses or slurry, where
good distribution is required. The large diameters allow
applications of solutions containing coarse particles
without blocking the nozzles. It could be applied for
liquid slurry applications, molasses from sugar cane
or other biomaterial.
▪ Rugged design, nozzles made from long
lasting POM
▪ Large diameter orifices reduce blockage risk
▪ Extremely large droplets
▪ Wide spray angle for reduced application/boom
height and even distribution
▪ Starts operating at very low pressure
flow rate* in l/min at pressure in bar
1.0
1.5
2.0
Type
Color
0.5
3.0
AN 20-1/2M
yellow
6
8
10
11
14
AN 40-1/2M
red
11
16
20
22
28
AN 60-1/2M
white
17
24
29
34
42
AN 90-1/2M
black
25
36
44
51
62
*Data measured with water at 20°C, pressure measured directly at the nozzle. Check application rate before spraying.
spray technology
19
Hose drops with
5 distribution holes
Pressure range 1 to 3 bar
Min.
penetration
Connection
30 cm (12‘‘) into the crop to
avoid burning
Fits onto standard bayonet
nozzle (other systems available
on request)
Advantages
▪ Extremely slim hose with no nozzle for lowest
driving resistance
▪ For liquid fertilisers only reduces risk of leaf
burning significantly by design
▪ Good distribution through five jets spraying
sidewise and forward
▪ Low risk of leaf burning due to extremely
coarse droplets
▪ Hoses drops stay in track due to firm but
flexible plastic tube
▪ Integral stainless steel pin maintains constant
distance to soil
▪ Total length of 90 cm (37“) allows use on
large booms
20
spray technology
Hose drops with
distribution nozzle
Pressure range 1 to 2.5 bar
Min.
penetration
Connection
330 cm (12‘‘), spray pattern
must not reach maize leaves/stem
Fits onto standard bayonet
nozzle holders (other systems
available on request)
Advantages
▪ Reduces risk of leaf burning significantly
▪ Application of liquid fertiliser and fungicides
or herbicides
▪ Wide angle anvil nozzle for even distribution
▪ Hose drops stay in track due to firm but flexible
plastic tube
▪ Ball check valve prevents dripping after shut off
▪ Total length of 90 cm (37“) allows use on
large booms
▪ Extension hose available to adjust to different
row widths
Check agrotop homepage for special
application chart
50 cm
50 cm
25 cm 25 cm
Blind cap
Extension
Hose drop
Extension
Hose drop
Hose drop
Blind cap
25 cm 25 cm
Hose drop
50 cm
row
distance
75 cm
spray technology
21
TurboDrop® VR MK II
Advantages
▪ Available with HiSpeed, flat fan, 6-stream
or single stream distribution tip
▪ Widely extended flow rate through integrated
check valve controlled bypass
▪ Variable, gradually adjustable orifice
cross section
▪ Replaces up to 3 standard sizes
Spray angle
2 x 110°
Pressure range
2 to 8 bar
Best performance
using pressure
3 to 7 bar
Boom height
Orientation of
spray patterns
Application
40 to 60 cm
Flat fan, 50°/10°, 6-stream
Boom spraying,
Special applications,
Liquid fertiliser applications
▪ Flexible adjustments to different flow rates
▪ High variation of application speeds
(e.g. 6-16 km/h) spraying within the recommended
best pressure range
▪ Compact design, easy to fit on all standard
bayonet nozzle holders
▪ Perfect for variable rate applications of fungicides,
insecticides post emergent herbicides, growth
regulators and liquid fertilisers
▪ Hose barb version for variable rate fertiliser
applications on planters and applicators
TD VR MK II
TD VR MK II
Flat Fan
6-stream
TD VR MK II
HiSpeed
50°/10°
22
TD VR MK II
Hose barb
single stream
spray technology
TurboDrop® VR MK II
Application chart TurboDrop® VR MK II
TurboDrop® VR 5
TurboDrop® VR 3
TurboDrop® VR 2
TurboDrop® VR 1.5
Pressure Flow rate
Application rate in l/ha at km/h
bar
l/min
6
1
0.33
66
2
0.68
136
7
8
9
10
11
12
13
14
15
16
17
57
50
44
40
36
33
30
28
26
25
23
117
102
91
82
74
68
63
58
54
51
48
3
0.97
194
166
146
129
116
106
97
90
83
78
73
68
4
1.21
242
207
182
161
145
132
121
112
104
97
91
85
5
1.42
284
243
213
189
170
155
142
131
122
114
107
100
6
1.58
316
271
237
211
190
172
158
146
135
126
119
112
7
1.76
352
302
264
235
211
192
176
162
151
141
132
124
8
1.9
380
326
285
253
228
207
190
175
163
152
143
134
1
0.44
88
75
66
59
53
48
44
41
38
35
33
31
2
1.02
204
175
153
136
122
111
102
94
87
82
77
72
3
1.51
302
259
227
201
181
165
151
139
129
121
113
107
4
1.92
384
329
288
256
230
209
192
177
165
154
144
136
5
2.27
454
389
341
303
272
248
227
210
195
182
170
160
6
2.56
512
439
384
341
307
279
256
236
219
205
192
181
7
2.8
560
480
420
373
336
305
280
258
240
224
210
198
8
3.09
618
530
464
412
371
337
309
285
265
247
232
218
1
0.73
146
125
110
97
88
80
73
67
63
58
55
52
2
1.28
256
219
192
171
154
140
128
118
110
102
96
90
3
1.86
372
319
279
248
223
203
186
172
159
149
140
131
4
2.38
476
408
357
317
286
260
238
220
204
190
179
168
5
2.8
560
480
420
373
336
305
280
258
240
224
210
198
6
3.24
648
555
486
432
389
353
324
299
278
259
243
229
7
3.62
724
621
543
483
434
395
362
334
310
290
272
256
8
4.05
810
694
608
540
486
442
405
374
347
324
304
286
1
1.88
376
322
282
251
226
205
188
174
161
150
141
133
2
2.59
518
444
389
345
311
283
259
239
222
207
194
183
3
3.4
680
583
510
453
408
371
340
314
291
272
255
240
4
4.07
814
698
611
543
488
444
407
376
349
326
305
287
5
4.75
950
814
713
633
570
518
475
438
407
380
356
335
6
5.35
1070
917
803
713
642
584
535
494
459
428
401
378
7
5.8
1160
994
870
773
696
633
580
535
497
464
435
409
8
6.27
1254
1075
941
836
752
684
627
579
537
502
470
443
Examples of use:
Constant application rate at variable speeds
Constant application speed with variable application rates
Data measured with water at 20°C, pressure measured directly at the nozzle. Check application rate before spraying.
Application chart TurboDrop® VR MK II 6-stream on request.
spray technology
23
Continuous internal
sprayer rinsing
Rinsing procedure
▪ Empty the sprayer tank on the field
(regular application)
Spray boom
▪ Liquid pressure drops, nozzles start to spit
▪ Switch on the rinsing pump, continue regular
application on untreated area or at reduced
rate on treated area
Return to tank
Chemical concentration
compared to original
spray liquid < 1 %
Rinsing tank/system/boom
Clean water
tank
▪ After 1/3 of the clean water is used up,
switch on/off several times all boom sections,
agitation and circulation lines. Continue
spraying while flushing all contaminated pipes
till they are complety rinsed.
Tank rinsing nozzles
Sprayer tank
Additional pump
for internal rinsing
▪ Internal cleaning is finished when clean water
tank is empty
Sprayer pump
Comparison of different sprayer rinsing procedures
Boom
Boom
sprayer
sprayer
– 12
– 12
m boom
m boom
– blue
– blue
03 03
nozzles
nozzles
(total
(total
consumption
consumption
20 20
l/min)
l/min)
Concentration in %
Concentration in %
50 50
Required
Required
time
time
to dilute
to dilute
to less
to less
than
than
1%1%
compared
compared
to original
to original
concentration
concentration
approx.
approx.
20–30
20–30
min.
min.
40 40
Water
Water
consumption
consumption
= 90
= liters
90 liters
30 30
15 15
15 15
50 50 99 99
Boom
Boom
sprayer
sprayer
– 12
– 12
m boom
m boom
– blue
– blue
03 03
nozzles
nozzles
(total
(total
consumption
consumption
20 20
l/min)
l/min)
Required
Required
time
time
to dilute
to dilute
to less
to less
than
than
1%1%
compared
compared
to original
to original
concentration
concentration
approx.
approx.
4 min.
4 min.
43 43
40 40
14 14
30 30
liters
liters
24 24
20 20
30 30
liters
liters
10 10
10 10
3,0 3,0 2,9 2,9
0 0
4 4
6 6
8 8
0,5 0,5 0,5 0,5 0,1 0,1
12 12 16 16 20 20 22 22 24 24
Time
Time
in min.
in min.
Water
Water
consumption
consumption
triple
triple
rinsing
rinsing
3 x 330x 30
l l
Time required 20 – 25 min. + 90 l clean water (incl.
time to step down and up from the tractor plus time
required to spray the rinsing water on the field)
24
Water
Water
consumption
consumption
= approx.
= approx.
40 liters
40 liters
30 30
30 30
liters
liters
20 20
10 10
Continuous internal rinsing
Concentration in %
Concentration in %
Standard procedure – triple rinsing
0 0
30 30
60 60
4,3 4,3 1,6 1,6 0,7 0,7 0,3 0,3
90 90 120120 150150 180180 210210 240240
Time
Time
in sec.
in sec.
Continuous
Continuous
rinsing
rinsing
hashas
a water
a water
consumption
consumption
of 10
of 10
l/min
l/min
Required time approx. 5 min. + 40 liter clean water
(the complete procedure can be operated from the
tractor with no need to stop)
spray technology
Continuous internal
sprayer rinsing
Tank-rinsing-kit for field sprayers
▪ ACE-Centrifugal pump
FMC-75HYD-204
▪ two rotating tank rinsing nozzles made
from stainless steel, AG 1/2“, Flow rate
28 l/min at 3 bar, including back pressure
valve 3/4“ IG
▪ All fittings, hose barbs,
washers and clamps, required
for installation
▪ Plain instruction manual
▪ Additional tank rinsing nozzle
for large tank sizes 4000 l plus
General note for all tank-rinsing-kits:
Pressure and suction hoses, as hydraulic pipes are not included and must be purchased according to the
individual set up of the sprayer.
Mounting arrangements for continuous
internal rinsing systems
spray technology
Rinsing kit
JKI
approved by
G 1906
25
QuantoFill M
QuantoFill M
QuantoFill M is a dosing and transfer unit for safe, accurate and contamination-free preparation of the spray
liquid when filling the tank on a sprayer or nurse truck.
QuantoFill M
JKI
approved by
G 1930
The QuantoFill M automates the procedure of
measuring and pouring the liquid spray chemicals into
the sprayer tank, saving time and avoiding dosage
errors. Up to five different chemicals can be connected
to the QuantoFill M.
The unit automatically calculates the correct volume
of each chemical to be transferred based on the
application rate of each product, the water rate and
the treatment area or tank volume. The products will
be dosed in the correct sequence, and the system is
flushed in between chemical doses.
The QuantoFill M is available for connection of
up to three or five different chemicals. More info
and technical details on request.
Advantages of the QuantoFill M
▪ Reduced calculation and measuring errors
when preparing the spray liquid
▪ Reduced filling time = increasing efficiency
▪ Easy handling of up to 25 different chemicals
through data input before spray season
▪ Environmentally and operator friendly
by avoiding direct contact with the product
and spilling (using MicroMatic valves)
▪ Avoiding residual amount of spray liquid
by automatically calculating the correct volume
for each product spraying subareas or partial
tank filling at end of treatment
Dosing station connected to different chemical IBCs
26
spray technology
Automatic proportioner for liquid
chemicals in agriculture
transfer to sprayer tank
Dosage device – installation diagram
QuantoFill M
water
product
A
product
B
product
C
QuantoFill M
control unit
ChemHopper
Main components of QuantoFill M
1
▪
▪
▪
▪
2
Main control unit
Control board
Power connection
Dosing electronic
On/Off switch
Valve manifold
with upt to 6 electic valves
▪ Maximum 5 x liquid spray chemicals
▪ 1 x fresh water
spray technology
3
4
5
▪
▪
6
Volumetric flow meter
Diaphragm pump
Two strainers
For liquid spray chemicals
For fresh water
Fittings, hoses and couplings
27
Dosing device for
Nitrogen stabilisers
Connection hose
Pump and flow meter
in weather-proof box
Remote control box
in cabin
Storage tanks
for N-stabiliser
(2 x 100 l)
Improving N-efficacy, reducing the
environmental impact of slurry
applications through the accurate
use of Nitrogen stabilisers
▪ Reducing N-losses through soil leaching
▪ Less use of additional mineral fertiliser
▪ More flexibility in timing of the application
▪ Environmentally friendly, reducing the
emission of nitrous oxides
▪ Long term, tailored supply of nitrogen to
plant roots
28
QuantoFill dosing device for Nitrogen
stabilisers, to be used at slurry filling
stations, slurry tanks or on self-propelled
slurry applicators
The device automates the accurate dosing of the
stabiliser into the slurry tank in an easy way.
The QuantoFill dosing station for N-stabiliser contains an
electric transfer pump and a flow meter. It is connected
straight to the container with the stabiliser (e.g. a 200 l
reservoir poly tank) and doses a pre-set mount of liquid
automatically into the slurry tank. The required amount
of liquid is easy to set and can be changed if needed.
In this way it is easy to always add the correct amount
of N-stabiliser filling the slurries; no extra time for measuring is required. For manual dosing, a kit with a flow
meter and a manually controlled valve is available.
spray technology
Dosing device for
Nitrogen stabilisers
Components of the dosing device
1
2
3
1.
Connection to slurry tank
2.
Check valve with by-pass
3.
Suction hose 3 m
4.
QuantoFill remote control box
incl. 5 m connecting cable
5.
Pump 12 V/230 V
6.
Poly case 40 x 30 x 27 cm
7.
7 m pressure hose
8.
QuantoFill flow meter
8
7
6
5
4
Advantages of the dosing device
▪ Exact, self-acting dosing of the stabiliser,
avoiding dosing errors
▪ Dosing and measuring in one step, reducing
work expenditure
▪ Closed transfer cycle, no extra rinsing efforts,
highest environmental saftey standards
agrotop offers three different versions
of the QuantoFill dosing device for
N-stabilisers
1. Stationary installation at slurry filling stations,
QuantoFill 130 dosing device in compact box using
230 V
▪ Remote control to operate device from driver’s
cabin, safe and easy to use
▪ Contamination free dosing
▪ Highest reliability
▪ Easy and quick installation on any slurry tanker
▪ Storage tanks for N-stabilizers on request
for 100 and 200 l
2. Trailed slurries, QuantoFill 115 12 V dosing device
in compact box to be mounted on the trailer
3. Self propelled slurries, QuantoFill 115 12 V dosing
device and remote control box for installation in
driver’s cabin
spray technology
tion,
Easy installa
e
simple to us
29
protecting users and environment
easyFlow
closed transfer system
Advantages
Components
▪ No spill connection with highest standards
of user and environmental safety
▪ easyFlow tank adapter for installation on the
sprayer tank, incl. mounting screws, sealing
ring and drilling jig
▪ Continuously adjustable flow rates, enabling
exact transfer of partial container volumes
▪ Rinsing of accessible parts in contact with
Plant Protection Products (PPP) after partial
dosing (adapters stays connected onto the
PPP container)
▪ easyFlow container adapter for PPP
containers up to 10 l with 63 mm neck thread
▪ Rinsing nozzle incorporated in container
adapter
▪ Fast and complete rinsing of empty plant
protection product containers
▪ Cuts and pushes back the aluminium seal
of the PPP container automatically, no need
to contaminate a knife for seal breaking
▪ No more contamination and cleaning of
measuring jugs required
▪ easyFlow wedge plate kit to compensate
for uneven tank surfaces
▪ Easy installation on all sprayer tanks and
on most chem-hoppers
▪ easyFlow starter set contains one tank
adapter plus several container adapters
easyFlow is the first closed, contamination-avoiding and self-cleaning transfer system for liquid plant protection products
from sealed or non-sealed small PPP containers enabling the user to do partial or complete dosing. The easyFlow system
is designed to fulfill all standards of environmental protection and operational safety today and in the future.
easyFlow starter set 1:
1 x tank adapter and
3 x container adapter
easyFlow tank adapter
easyFlow container adapter
easyFlow starter set 2:
1 x tank adapter and
5 x container adapter
Application professional view on the easyFlow system
Manfred Stark, swine nursery and broadacre farmer, Mainleus
I’m using the easyFlow system since a couple of months and I’m excited about it.
The incorporated rinsing of the empty containers convinces me. It works much better
than using the rinsing nozzles of the chemical mixer. The fact that I’m avoiding any
direct contact is also a big plus, as well as the possibility that the easyFlow fits also
onto small sprayers.
spray technology
31
easyFlow M
safe metering and dosing
Closed transfer and metering system
for containers with liquid ag chemicals
Advantages
easyFlow M –
all benefits of the easyFlow system
+ mounts next to the sprayer tank, at working
height for easy handling on big sprayers
+ connects to suction line, induction bowl
or any other induction system
+ transfer of entire content or exact metering
and dosing of small partial quantities
+ rinsing of the whole system even after partial
emptying of containers
+ automatic rinsing of the measuring device
simultaneously
+ best for retrofitting
+ easy to install on any sprayer
+ clear and transparent measuring vessel,
inexpensive to replace
all
Suitable for
lusive
sprayers, inc
big sprayers
32
spray technology
easyFlow QF
automatically safe
Electronically controlled closed transfer
system for containers, drums and IBCs
with liquid ag chemicals
Advantages
easyFlow QF –
all benefits of the easyFlow system
+ only one closed transfer system for all
different containers
+ to be used on sprayers or filling stations
+ only 12 VDC supply needed
+ preselection of transfer volume
+ automatic metering and dosing
+ starts working from 1 liter
+ rinsing of the entire system by electronic
flushing procedure
+ thousands of flowmeters field proven
+ easy retrofitting
+ simple installation
+ big savings of time
+ failsafe dosing
ry
For stationa
and mobile
operation
Innovation Award
Silver Medal
Agritechnica 2015
spray technology
Universal application chart for boom sprayers at 50 cm nozzle spacing
Nozzle size and colour according to ISO 10625 or equivalent
Application rate l/ha
Flow
Nozzle size ISO
rate
-01-015-02-025-03 -04 -05 -06 -08 -10
50 75 100125150175200250300400l/min 6.0
4.00.25
7.2
4.80.30
8.4
5.6
4.20.35
Speed km/h
9.6
6.4
4.8
0.40
10.8
7.2
5.4
4.30.45
12.0
8.0
6.0
4.8
4.00.50
13.2
8.8
6.6
5.3
4.40.55
14.49.67.25.84.84.1 0.60
15.6
10.47.86.25.24.5 0.65
16.8
11.28.46.75.64.84.2 0.70
18.0
12.09.07.26.05.14.5 0.75
19.2
12.89.67.76.45.54.8 0.80
20.4
13.610.28.26.85.85.14.1 0.85
21.6
14.410.88.67.26.25.44.3 0.90
22.8
15.211.49.17.66.55.74.6 0.95
24.0
16.012.09.68.06.96.04.84.0 1.00
16.812.610.18.47.26.35.04.2 1.05
17.613.210.68.87.56.65.34.4 1.10
18.413.811.09.27.96.95.54.6 1.15
19.214.411.59.68.27.25.84.8 1.20
20.015.012.010.0 8.6 7.5 6.0 5.0 1.25
20.815.612.510.4 8.9 7.8 6.2 5.2 1.30
21.616.213.010.89.38.16.55.44.1 1.35
22.416.813.411.29.68.46.75.64.2 1.40
23.217.413.911.69.98.77.05.84.4 1.45
24.018.014.412.010.3 9.0 7.2 6.0 4.5 1.50
19.215.412.811.0 9.6 7.7 6.4 4.8 1.60
20.416.313.611.710.2 8.2 6.8 5.1 1.70
21.617.314.412.310.8 8.6 7.2 5.4 1.80
22.818.215.213.011.4 9.1 7.6 5.7 1.90
24.019.216.013.712.0 9.6 8.0 6.0 2.00
20.216.814.412.610.1 8.4 6.3 2.10
21.117.615.113.210.6 8.8 6.6 2.20
22.118.415.813.811.0 9.2 6.9 2.30
23.019.216.514.411.5 9.6 7.2 2.40
24.020.017.115.012.010.0 7.5 2.50
20.817.815.612.510.4 7.8 2.60
21.618.516.213.010.8 8.1 2.70
22.419.216.813.411.2 8.4 2.80
23.219.917.413.911.6 8.7 2.90
24.020.618.014.412.0 9.0 3.00
21.318.614.912.4 9.3 3.10
21.919.215.412.8 9.6 3.20
22.619.815.813.2 9.9 3.30
23.320.416.313.610.2 3.40
24.021.016.814.010.5 3.50
21.6
17.3
14.4
10.8
3.60
22.2
17.8
14.8
11.1
3.70
22.8
18.2
15.2
11.4
3.80
23.4
18.7
15.6
11.7
3.90
24.0
19.2
16.0
12.0
4.00
19.7
16.4
12.3
4.10
20.2
16.8
12.6
4.20
20.6
17.2
12.9
4.30
21.1
17.6
13.2
4.40
21.6
18.0
13.5
4.50
22.1
18.4
13.8
4.60
22.6
18.8
14.1
4.70
23.0
19.2
14.4
4.80
Speed km/h
23.5
19.6
14.7
4.90
24.0
20.0
15.0
5.00
1.2
1.7
2.3
1.0
Pressure bar
3.0
1.3
3.8
1.7
4.7
2.1
1.2
5.7
2.5
1.4
6.7
3.0
1.7
1.1
7.9
3.5
2.0
1.3
9.24.12.31.51.0
4.72.61.71.2
5.33.01.91.3
6.03.42.21.5
6.83.82.41.7
7.54.22.71.91.1
8.44.73.02.11.2
9.25.23.32.31.3
10.15.73.62.51.4
6.24.02.81.51.0
6.74.33.01.71.1
7.34.73.31.81.2
7.95.13.52.01.3
8.55.53.82.11.4
9.25.94.12.31.51.0
6.34.42.51.61.1
6.84.72.61.71.2
7.75.33.01.91.3
8.76.03.42.21.5
9.76.73.82.41.71.0
7.54.22.71.91.1
8.34.73.02.11.2
9.25.23.32.31.3
10.15.73.62.51.4
6.2
4.0
2.8
1.6
1.0
6.7
4.3
3.0
1.7
1.1
7.3
4.7
3.3
1.8
1.2
7.9
5.1
3.5
2.0
1.3
8.5
5.5
3.8
2.1
1.4
9.2
5.9
4.1
2.3
1.5
9.9
6.3
4.4
2.5
1.6
6.7
4.7
2.6
1.7
7.2
5.0
2.8
1.8
7.7
5.3
3.0
1.9
8.2
5.7
3.2
2.0
8.7
6.0
3.4
2.2
9.2
6.4
3.6
2.3
9.7
6.7
3.8
2.4
10.3
7.1
4.0
2.6
7.5
4.2
2.7
7.9
4.5
2.9
8.3
4.7
3.0
8.8
4.9
3.2
9.2
5.2
3.3
9.6
5.4
3.5
10.1
5.7
3.6
5.9
3.8
6.2
4.0
6.5
4.1
6.8
4.3
Pressure bar
7.0
4.5
7.3
4.7
Data measured with water at 20°C, pressure measured directly at the nozzle. Check application rate before spraying.
E.g.: 150 l/ha at 10 km/ha requires a flow rate of 1.25 l/min at each nozzle, which can be obtained by setting pressure at 7.3 bar for nozzle
size -02; 4.7 bar for size -025, 3.3 bar for size -03, 1.8 bar for size -04 or 1.2 bar for size -05.
Check our online nozzles calculator at www.agrotop.com
spray technology
Flow chart and nozzle color code according to ISO 10625 or equivalent
e.g. SprayMax, AirMix®, TurboDrop®
Flow rate l/min at nozzle size ISO
Pressure
bar
-01-015-02-025-03 -04 -05 -06 -08 -10-12-15-16-20
1.0 0.230.350.460.580.690.921.151.391.852.312.773.463.704.62
1.5 0.280.420.570.710.851.131.411.702.262.833.394.244.535.66
2.0 0.330.490.650.820.981.311.631.962.613.273.924.905.236.53
2.5 0.370.550.730.911.101.461.822.192.923.654.385.485.847.30
3.0 0.400.600.801.001.201.602.002.403.204.004.806.006.408.00
3.5 0.430.650.861.081.301.732.162.593.464.325.186.486.918.64
4.0 0.460.690.921.151.391.852.312.773.704.625.546.937.399.24
5.0 0.520.771.031.291.552.072.583.104.135.166.197.748.2610.33
6.0 0.570.851.131.411.702.262.833.394.535.666.788.489.0511.31
7.0 0.610.921.221.531.832.443.053.674.896.117.339.169.7812.22
8.0 0.650.981.311.631.962.613.263.925.236.537.839.8010.4513.06
9.0 0.691.041.391.732.082.773.464.165.546.938.3110.3911.0913.86
10.00.731.091.461.822.192.923.654.385.847.308.7610.9511.6814.61
12.00.801.201.602.002.403.204.004.806.408.009.5912.0012.8016.00
14.00.861.291.732.162.593.464.325.196.918.6410.3612.9613.8317.28
16.00.921.381.852.312.773.704.625.547.399.2411.0813.8514.7818.48
18.00.981.471.962.452.943.924.905.887.849.8011.7514.6915.6819.60
20.01.031.552.072.583.104.135.166.208.2610.3312.3915.4916.5220.66
22.01.081.622.172.713.254.335.416.508.6710.8312.9916.2417.3321.67
24.01.131.702.262.833.394.535.656.799.0511.3113.5716.9718.1022.63
26.01.181.762.362.943.534.715.887.079.4211.7714.1217.6618.8423.55
28.01.221.832.443.053.674.896.117.339.7812.2214.6518.3319.5524.44
30.01.271.902.533.163.805.066.327.5910.1212.6515.1718.9720.2425.30
Data measured with water at 20°C, pressure measured directly at the nozzle. Check application rate before spraying.
Optimum droplet size with respect to chemical and nozzle type in broadacre agriculture
Droplet size
Venturi nozzle
Standard nozzle
extremely ca. +550 µm
coarse
Systemic using
higher application rates
reduced coverage
Systemic
reduced coverage
coarse
ca. 350–400 µm
Systemic all; Contact using
higher application rates
Systemic using
higher application rates
medium
Systemic; Contact
Systemic
very coarse
ca. 400–550 µm
ca. 250–350 µm
Coverage
Penetration
Drift risk
extremely coarse
fine
ca. 150–250 µm
Drift risk!
Systemic; Contact
Drift risk!
very fine
not recommended
ca. –150 µm
not recommended
These recommendations are based upon extensive general
experience under temperate climatic conditions. They do
not substitute the individual application recommendations
for chemicals, specially under different climatic conditions.
spray technology
extremely coarse
very coarse
extremely coarse
very coarse
extremely coarse
coarse
very coarse
extremely coarse
coarse
very coarse
medium
extremely coarse
coarse
very coarse
medium
coarse
fine
very coarse
medium
coarse
fine
medium
very fine
coarse
fine
medium
very fine
fine
medium
very fine
fine
very fine
Wherever you need us.
You will find more products and accessories for crop protection in our
latest catalog, available online or order directly from us.
Try our personalised nozzle guide available online on our homepage
www.agrotop.com
All info also available
for your smartphone.
Find the latest application videos
on our YouTube channel agrotopLive
www.youtube.com/c/agrotop
agrotop GmbH
Köferinger Straße 5
93083 Obertraubling (Germany)
Telefon +49 (0)9453 9938-0
Telefax +49 (0)9453 993845
E-Mail info@agrotop.com
Internet www.agrotop.com