F o r 230 V , u s e a H 07 R N -F 3 ty p e c o n n e c tio n s le e v e w ith a c a b le s e c tio n th a t a d a p ts to th e p o w e r o f th e m o to r a n d
to th e le n g th o f th e c a b le .
F o r p u m p s w ith a th re e -p h a s e m o to r:
U s e a m o to r g u a rd w ith m a g n e to -th e rm a l p ro te c tio n .
P ro te c t th e p u m p a g a in s t o v e rlo a d s w ith a c u t-o ff s w itc h fo r th e m o to r.
A d ju s t th e th e rm a l v a lu e a c c o rd in g to th e th e rm a l pro te c tio n tab le . F o r the c o nn e c tio n ∆ (3 x 230 V n e tw o rk), us e
th e p ro te c tio n w ith the high e s t ind ic a te d value . F o r the c o n ne c tio n Υ (3 x 400 V ne tw o rk), us e the p ro te c tio n
w ith the lo w e s t ind ic a te d va lu e .
C o nne c t the lo w e s t vo lta g e a t ∆ a nd the h ig he s t at Υ fo r vo lta ge in te rvals o th e r tha n 230/400 V ; 400/690 V .
F o r A C , us e a H 07 R N -F 3 typ e c o nne c tio n s le e ve w ith a c a b le s e c tio n tha t a d ap ts to the p o w e r o f the m o to r a nd
th e le ng th o f the c a b le .
T he m a in s c ab le m ay o nly b e c o n ne c te d b y s kille d , a uth o ris e d pe rs o nn e l.
4.S T A R T -U P IN S T R U C T IO N S
P R IO R T O S T A R T -U P
2. F ill the p um p w ith w a te r thro u gh th e p re -filte r u ntil it ris e s up thro u g h th e s uc tio n pipe .
3. S ho uld th e ba s ke t b e re m o ve d du ring the s e o p e ratio ns , do no t fo rge t to re p la c e it to p re ve nt larg e pa rtic le s fro m
e n te rin g the p u m p th at c o uld b lo c k it.
4. C he c k tha t th e m ains vo lta ge an d fre q ue nc y c o rre s p o n d w ith tho s e ind ic ate d o n the p um p c h ara c te ris tic s p la te .
- F it the pre -filte r c a p an d s c re w o n tig ht, no t fo rg e tting to fit th e s e a l in its ho us ing (F ig . 5).
- T he pu m p s m u s t n o t be run w itho ut th e p re -filte r ha ving firs t b e e n fille d w ith w ate r. W he re this is n o t the c a s e , th e
m e c ha nic a l ga s ke t m a y b e da m a g e d , le a d ing to a lo s s o f w a te r.
S T A R T -U P
5. M A IN T E N A N C E
T h e p u m p s h o u ld b e c h e c ke d e v e ry 100 h o u rs o f o p e ra tio n o r le s s , d e p e n d in g o n th e le v e l o f c le a n lin e s s o f th e w a te r.
C h e c k th e te m p e ra tu re o f th e m a c h in e a n d th e e le c tric m o to r. In th e e v e n t o f a fa u lt, s to p th e m a c h in e im m e d ia te ly
a n d c o n ta c t th e n e a re s t T e c h n ic a l A s s is ta n c e S e rv ic e .
6
e (F ig . 5).
a n lo c ate d at the ba c k o f the m o to r tha t c a n
m ple te d.
d itio n o f th e s c re w s s u p p o rtin g th e m a c h in e .
n t th e b a s ke t fro m b re a kin g , d o n o t h it it d u rin g
Ins tallation and G eneral M aintenanc e M anual
- P O O L P U M P S