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2015年最新モデル【送料無料】ホンマ ダンロップ XXIO ツアーワールド

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2015年最新モデル【送料無料】ホンマ ダンロップ XXIO ツアーワールド
Quick-Fittig Type Ejector
Vacuum Generator
Features
Constraction
The Vacuum Generator, creating vacuum by use of
compressed air, can be used in combination with a
Vacuum Pad to convey materials.
Vacuum Generator comes in a variety of
performances and types to meet your applications.
Exhaust port
Silencer element
(Polyvinyl formal)
Cap
(aluminum)
Diffuser
(nickel-plated brass)
Resin body
(Polybutylene telephthalate)
Lock claw
(stainless steel)
Exhaust port
Specification
Air
Fluid admitted
21.3~100psi
0.15 ~ 0.7MPa
Service pressure range
Rated supply pressure 71.1psi (49.8psi) 0.5MPa (0.35MPa)
32 ~ 140°F
0 ~ 60°C
Service temperature range
Metalic body
(nickel-plated brass)
Air suppoly port
VB·VUSM Vaccume switch specification
Pressure sensing mode
Fluid admitted
Service temperature range
Rated power
Pressure setting range
Accuracy
Differential response
Set value at shipment
Model Desiguation (Example)
VH
(1)
H
(2)
07
(3)
(1)Type
(2)Performance
H : High vacuum medium flow type
L : Medium vecuum Lange flow type
E : High vacuum small flow type
(3)Nozzle dia
Vacuum
port
Tube
Release ring
(polyacetal)
Elastic sleeve
(nitrile rubber)
O-ring (nitrile rubber)
Nozzle (nickel-plated brass)
Diaphram micro switch
Air
32~140°F (0 ~ 60°C) (No freezing)
3A 250V
-5.9~-19.7in. Hg (-20~-67KPa)
±1.6in. Hg (±5KPa)
2.0~4.7in. Hg (7~16KPa)
-15.7in. Hg (-53KPa)
6
(4)
01
(5)
(6)
(7)
(4)Vacuum Port size
Tube dia
Tube dia
mm size
in. size
Code
4 6 8 10 12 5/32 1/4 5/16 3/8 1/2
Size
φ4 φ6 φ8 φ10 φ12 φ5/32 φ1/4 φ5/16 φ3/8 φ1/2
Thread size
American standard
Code
05
07
10
12
15
20
Size H Type vacuum level suction flow L Type vacuum level suction flow E Type vacuum level suction flow
-26.8in.Hg(-90KPa) -19.7in.Hg(-67KPa)
0.5mm
0.25SCFM(7N /min) 0.42SCFM(12N /min)
-27.2~-27.6in.Hg(-90~-93KPa) -19.7in.Hg(-67KPa) -26.8~-27.2in.Hg(-90~-92KPa)
0.7mm
0.44~0.46SCFM(12.5~13N /min) 0.78~0.92SCFM(22~26N /min) 0.35~0.37SCFM(10~10.5N /min)
-27.6in.Hg(-93KPa) -19.7in.Hg(-67KPa) -27.2in.Hg(-92KPa)
1.0mm
0.99SCFM(28N /min) 1.48SCFM(42N /min) 0.74SCFM(21N /min)
-27.6in.Hg(-93KPa)
-27.2in.Hg(-92KPa)
1.2mm
1.34SCFM(38N /min)
0.95SCFM(27N /min)
-27.6in.Hg(-93KPa) -19.7in.Hg(-67KPa) -27.2in.Hg(-92KPa)
1.5mm
2.22SCFM(63N /min) 3.35SCFM(95N /min) 1.48SCFM(42N /min)
-27.6in.Hg(-93KPa) -19.7in.Hg(-67KPa) -27.2in.Hg(-92KPa)
2.0mm
3.88SCFM(110N /min) 6.35SCFM(180N /min) 2.96SCFM(84N /min)
*Air supply pressure is 0.5MPa (71.1psi) for H and L types
or 0.35MPa (49.8psi) for E type.
Thread size Metric thread(mm) Taper pipe thread Unified fine thread Taper pipe thread
Code
M5 M6 01 02 03 U10 N1 N2
Size
M5×0.8 M6×0.8 R1/8 R1/4 R3/8 10-32UNF NPT1/8 NPT1/4
(5)Air supply port size
Tube dia
Tube dia
mm size
in. size
Code
4 6 8 10 12 5/32 1/4 5/16 3/8 1/2
Size(mm) φ4 φ6 φ8 φ10 φ12 φ5/32 φ1/4 φ5/16 φ3/8 φ1/2
Thread size
American standard
Thread size Metric thread(mm) Taper pipe thread Unified fine thread Taper pipe thread
Code
M5 M6 01 02 03 U10 N1 N2
Size
M5×0.8 M6×0.8 R1/8 R1/4 R3/8 10-32UNF NPT1/8 NPT1/4
(6)Additional feature
J : Concentrated Exhaust type (VH, VS, VU)
A : Disassembly type (VU)
(7)Hexagon flat-to-flat specification
U: Hexagon flat-to-flat inch spec. (NPT)
No code: Hexagon flat-to-flat mm spec.
382
Characteristics
Pressure supply-Final Vacuum, Vacuum flow, Air consumption
5
H type suction flow
0.4
0.5
0.6
0.7
0
0.1
E type suction flow
0.1
0.2
0.3
0.4
0.5
0.6
40
20
0.7
0
0
0.4
0.5
supply pressure (MPa)
0.6
0.7
0
0.1
0.3
0.4
suction
60
flow
0.5
0.6
0.7
flow rate (Nl/min)
80
0
um
H type final vacuum
500
400
300
pe
L ty
50
40
tion
ow
n fl consump
ir
A
30
tio
suc
200
H type suction flow
20
10
100
E type suction flow
0
0.1
0.2
0.3
0.4
0.5
supply pressure (MPa)
m
cuu
400
e
L
300
fin
Air
p
ty
L type s
0.6
0.7
0
n
ptio
um
ons
50
c
uction flo
60
w 40
200
30
H type suction flow
E type suctio
n flow 20
100
10
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0
flow rate (Nl/min)
u
ac
v
al
l va
fina
cu
va
al
0.2
Et
ype
fina
l va
cuu
m
final vacuum (-mmHg)
cu
va
al
fin
L
ty
pe
20
tion
sump
n
o
c
Air
15
flow rate (Nl/min)
um
um
cu
l va
ina
ef
yp
Ht
final vacuum (-mmHg)
383
0.3
100
v
VUH 07 VUL 07 VUE 07
H type suction flow 5
0.2
140
120
um
u
ac
ty
H type
500
0
supply pressure (MPa)
L type suction flow 10
0.1
n
20
600
0
al
ptio
100
600
100
m
nsu
fin
pe
L
co
600
um
supply pressure (MPa)
40
E type s
uction flo
w
700
200
0
200
700
300
fin
uum
inal
300
VUH 05 VUL 05
VMH 05 VML 05
VCH 05 VCL 05
400
L
suc
e
typ
pe f
400
Air
low
nf
tio
vac
500
supply pressure (MPa)
500
0.7
flow rate (Nl/min)
0
0.6
cu
100
0.5
600
E ty
60
H type suction flow
final vacuum (-mmHg)
80
flow rate (Nl/min)
m
cuu
l va
fina
ption
nsum
o
Air c
200
0.4
H type final vacuum
700
100
ype
300
0.3
10
VHH 15 VHL 15 VHE 15
VSH 15 VSL 15 VSE 15
Et
final vacuum (-mmHg)
400
0.2
20
supply pressure (MPa)
H type final vacuum
500
pe
E type suction flow
0
VHH 12 VHL 12
VSH 12 VSL 12
VBH 12 VBL 12
600
ty
100
supply pressure (MPa)
700
L
H type suction flow
70
pe
m
c uu
l va
fina
pe
200
va
0.3
suc
ype
Lt
al
0.2
300
40
n
low nsumptio
o
Air c
30
f
tion
fin
0.1
H type final vacuum
50
pe
0
400
VHL 10 VHE 10
VSL 10 VSE 10
VBL 10 VBE 10
VGL 10
700
final vacuum (-mmHg)
10
VHH 10
VSH 10
VBH 10
VGH 10
flow rate (Nl/min)
15
L type suction flow
100
20
500
ty
200
on
600
E ty
300
umpti
final vacuum (-mmHg)
ns
Air co
flow rate (Nl/min)
L
ype
400
ty
pe
fina
500
fin
al
va
cu
um
l va
cuu
m
600
VHE 07
VSE 07
VBE 07
VGE 07
H type final vacuum
700
Ht
final vacuum (-mmHg)
700
VHL 07
VSL 07
VBL 07
VGL 07
E ty
VHH 07
VSH 07
VBH 07
VGH 07
um
VHL 05
VSL 05
VBL 05
VGL 05
L
VHH 05
VSH 05
VBH 05
VGH 05
Charactorustics
Evacuation time [Supply pressure H type : 0.5MPa(72.5psi), L type : 0.5MPa(72.5psi),E type : 0.3-0.5MPa(43.5~72.5psi)]
* These figures depend on the layout of vacuum system.
g
mH
0m
-10
6
5
4
3
8
g
7
H
mm
0
-20
6
5
4
g
mmH
3
-100
6
5
4
3
2
1
1
0
7
1
2
3
4
5
Volume to vacuum (l)
6
0
7
1
2
3
4
5
Volume to vacuum (l)
6
7
-600mm
Hg
6
g
mH
0m
0
1
-
7
1
2
3
4
5
Volume to vacuum (l)
-20
0m
mH
g
8
2
1
-650mmHg
-600mmHg
mHg -500mm
Hg
9
2
0
-400m
10
9
Evacuation time (sec)
8
11
VUH 05
-300
mm
Hg
10
12
-3
00
m
m
Hg
00
11
9
7
-500
mmH
g
-450
mm
Hg
-40
0m
mH
g
Hg
mm
12
Evacuation time (sec)
Evacuation time (sec)
10
VHL 05
VSL 05
VBL 05
-2
11
-30
0mm
Hg
-500mm
12
-400m
mHg
Hg
-650mmHg
-600mmHg
VHH 05
VSH 05
VBH 05
g
mH
3
1
1
10
0
-2
7
6
5
g
H
mm
0
-10
3
Hg
m
g
mH
7
m
00
-2
5
4
-100
mm
Hg
1
mH
5
4
2
3
4
5
Volume to vacuum (l)
6
7
Hg
mm
-200
3
1
0
0
-30
6
2
7
7
Hg
mm
7
1
6
0m
8
1
2
3
4
5
Volume to vacuum (l)
6
9
2
1
g
m
00
Hg
mm
0m
mH
g
-40
-3
10
2
0
2
3
4
5
Volume to vacuum (l)
VHL 07
VSL 07
VBL 07
11
8
3
1
12
9
6
0
7
Evacuation time (sec)
Hg
0m
6
-100mmHg
VHH 07
VSH 07
VBH 07
-500
-650mm
11
m
4
Hg
12
9
8
2
3
4
5
Volume to vacuum (l)
-600mm
VUE 07
-30
0m
mH
g
-400
mm
Hg
10
1
Hg
-600m
mHg
-500m
mHg
11
-650mmHg
12
0
-45
3
1
7
g
mH
0m
-20
4
2
6
-500
5
g
Hg
0mm
-10
4
g
mH
0m
-30
6
m
H
5
-
7
m
6
Hg
m
m
0
40
8
-4
00
-2
7
9
2
2
3
4
5
Volume to vacuum (l)
g
0m
-30
Hg
2
1
mmH
g
Hg
0mm
-40
m
00
m
-45
0m
mH
g
3
8
g
Hg
mm
-100
4
10
9
mH
5
11
0m
6
12
-50
7
VUL 07
Evacuation time (sec)
Evacuation time (sec)
8
mmH
10
g
mH
0m
0
-2
9
0
Evacuation time (sec)
11
Evacuation time (sec)
Evacuation time (sec)
10
12
VUH 07
-500
11
-650mmHg
12
-30
0m
mH
g
-500m
mHg
-450m
mHg
-400
mm
Hg
VUL 05
-100mmH
0
1
2
3
4
5
Volume to vacuum (l)
6
g
7
384
Characteristics
2
-20
3
-10
1
6
0
7
1
2
3
4
5
Volume to vacuum (l)
Hg
m
0m
0
-3
8
7
6
5
-20
4
3
0m
mH
g
mHg
-100m
2
2
3
4
5
Volume to vacuum (l)
6
g
Hg
mH
m
m
-5
7
-4
6
3
g
mmH
-200
1
2
3
4
5
Volume to vacuum (l)
3
1
0
1
2
3
4
5
Volume to vacuum (l)
6
mH
0m
-50
6
g
mmH
-300
Hg
-200mm
2
1
7
Hg
1
2
3
4
5
Volume to vacuum (l)
1
2
3
4
5
Volume to vacuum (l)
6
7
6
7
m
00
m
H
g
-5
9
8
7
6
-40
5
0m
mH
g
Hg
0mm
-30
4
3
Hg
-200mm
-100mmHg
2
-100mmHg
0
g
-100mm
g
3
mH
Hg
mm
-200
3
11
g
mH
0m
-40
4
0m
4
12
6
5
Hg
VHE 15
VSE 15
-50
7
m
-30
0
Hg
m
m
0
5
-4
8
m
00
5
10
9
7
7
7
0m
mH
m
m
00
Hg
-200mm
g
mH
0m
-10
2
385
-6
g
mH
0m
-40
g
mm H
-300
4
-4
8
1
10
6
5
6
6
9
VHL 15
VSL 15
11
g
mH
0m
0
-5
7
2
3
4
5
Volume to vacuum (l)
2
g
-100mmH
12
9
8
g
g
mH
0m
0
Evacuation time (sec)
Evacuation time (sec)
10
H
mm
-30
4
7
Hg
g
mH
0m
-65
11
00
5
VHH 15
VSH 15
12
10
8
1
1
11
9
2
1
0
1
VHE 12
VSE 12
VBE 12
00
-4
10
9
0
12
0m
Hg
m
m
00
11
-60
-650
mm
Hg
g
mH
0m
-50
g
mmH
12
Evacuation time (sec)
Evacuation time (sec)
10
-600
g
-650mmH
11
1
7
mHg
g
-100mmH
VHH 12
VSH 12
VBH 12
VHE 10
VSE 10
12
6
-200m
g
2
3
4
5
Volume to vacuum (l)
3
2
g
0mmH
g
mH
0m
-30
4
mH
1
5
g
0
g
g
mH
0mm
2
1
Hg
0m
3
4
6
-50
g
7
mH
mH
Hg
mm
00
4
-
8
0m
-
m
100
5
Evacuation time (sec)
4
mH
0m
-30
6
9
-65
5
g
7
Hg
-60
0m
mH
g
6
8
m
-4
g
7
9
mHg
m
10
mmH
m
m
50
-600
00
Hg
m
0m
0
-4
-650m
-2
11
Evacuation time (sec)
8
Evacuation time (sec)
9
12
Evacuation time (sec)
10
Hg
VHL 10
VSL 10
VBL 10
0m
-650
m
mH
0m
mm
11
-50
g
Hg
12
-30
10
-40
0
11
VHH 10
VSH 10
VBH 10
mH g
-60
0mm
Hg
-600mmHg
-500m
12
Evacuation time (sec)
VHE 07
VSE 07
VBE 07
mHg
-650mmHg
Evacuation time [Supply pressure H type : 0.5MPa(72.5psi), L type : 0.5MPa(72.5psi), E type : 0.3-0.5MPa(43.5~72.5psi)]
* These figures depend on the layout of vacuum system.
1
0
1
2
3
4
5
Volume to vacuum (l)
6
7
How to select
Three different types of vacuum generators, H type (high vacuum), L type (large vacuum flow) and E type
(low consumption-high vacuum), are provided to meet your requirements.
H type - E type
When your primary concern is to get a high vacuum level; where 0.5MPa(72.5psi) of compressed air can be secured
H type is suitable, and where it cannot be secured or air consumption needs to be lowered, E type is preferable.
H type - L type
Where high vacuum is required, H type is recommended. When the vacuum needs to be adjusted, L type
can be used to set the vacuum at a desired level by adjusting the pressure of the supply air with a regulator.
Vacuum level of L type is almost in proportion to the force of supply air.
During the pressure range of 0.2~0.6MPa(29~87psi), L type is designed to set the vacuum level at; -27KPa(7.9in.
Hg) at 0.2MPa(29psi), -40KPa(11.8in. Hg) at 0.3MPa(43.5psi), -54KPa(15.7in. Hg) at 0.4MPa(58psi), -67KPa(19.7in.
Hg) at 0.5MPa(72.5psi), -80KPa(23.6in. Hg) at 0.6MPa(87psi). Although there is some differential between -5% to
+15% against the setting level, it is still possible to set the vacuum level by adjusting the supply air pressure.
When the vacuum cups do not hold the surface of works perfectly:
When the works cannot be held tight by vacuum cups (due to air leak), how to decide which type, H type or
L type, should be used depends on the vacuum level in the vacuum system.
According to the vacuum level-vacuum flow table at the right, when the vacuum level in vacuum system is
over -54KPa(15.7in. Hg), H type is preferable. When under -40KPa(11.8in. Hg), L type is better.
L Type Final Vacuum Characteristcs
VHH 10, VHL 10 Vacuum level-Suction flow
700
2
Spply Pressure0.5MPa(5kgf/cm )
700
Vacuum level (-mmHg)
Final Vacuum (-mmHg)
600
500
400
300
200
500
400
300
VH
L1
0
200
H
VH
100
600
0
0.1
0.2 0.3 0.4 0.5
Supply Pressure (MPa)
(Fig.1)
0.6
0.7
10
100
0
10
20
30
40
Suction flow (Nl/min)
50
(Fig.2)
Remarks
Valve
When solenoid valves or other valves are used in the system, ones that can secure adequate air flow should be used.
(Valves' effective sectional areas should be three times bigger than the nozzle's cross section).
Vacuum piping
Because the piping resistivity of vacuum system is bigger than you expect, we'd recommend you to make
the vacuum piping as short as possible and to use a tube whose dia. is bigger than the general one.
Especially, when vacuum switches are used in the system, too much piping resistance might cause wrong
operations. It might also cause a reduction of vacuum flow.
Piping for air supply side
It is necessary to play attention to the piping on the air supply side. Piping should be done in order to
secure the rated pressure at the point of the inlet port of vacuum generator.
386
! Detailed Safety Instructions
Before using the PISCO device, be sure to read the "Safety Instructions","Common Safety Instructions for Products Listed in This Manual" on pages 23~24
and "Common Safety Instructions for Vacuum" on pages 379~380 and "Common Safety Instructions for Mechanical Vacuum Switches" on page 381.
! Caution
1. Note that with the VC type (M5 only) piping can not be changed after installation of the body.
387
Vacuum Series Vacuum Generator
CAD
VU
Model
Pipe Type Union Straight
φ12
φD2
C1
B
C2
P
φD1
V
φ13
VUH 05-44A
VUH 05-46A
VUH 05-64A
VUH 05-66A
VUH 07-44A
VUH 07-46A
VUH 07-64A
VUH 07-66A
VUL 05-44A
VUL 05-46A
VUL 05-64A
VUL 05-66A
VUL 07-44A
VUL 07-46A
VUL 07-64A
VUL 07-66A
VUE 07-44A
VUE 07-46A
VUE 07-64A
VUE 07-66A
Tube dia. Tube dia.
φD1
φD2
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
B
C1
49
C2
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
50
50.5
55.5
11.5
11
56.5
57
49
11.5
11
50
50.5
55.5
11.5
11
56.5
57
55.5
11.5
11
56.5
57
unit:mm
Nozzle dia. Final vacuum Suction flow Air consumption Mass
(mm) (-KPa) (N /min) (N /min) (g)
11.5
18.5
0.5
0.7
VU
Pipe Type Straight
φ13
φ12
φD
L
B
C
P
H10
B
A L
V
A
R
Metric Thread Type
Model
VUH 05-M54A
VUH 05-M56A
VUH 05-M64A
VUH 05-M66A
VUH 05-014A
VUH 05-016A
VUH 07-M54A
VUH 07-M56A
VUH 07-M64A
VUH 07-M66A
VUH 07-014A
VUH 07-016A
VUL 05-M54A
VUL 05-M56A
VUL 05-M64A
VUL 05-M66A
VUL 05-014A
VUL 05-016A
VUL 07-M54A
VUL 07-M56A
VUL 07-M64A
VUL 07-M66A
VUL 07-014A
VUL 07-016A
VUE 07-M54A
VUE 07-M56A
VUE 07-M64A
VUE 07-M66A
VUE 07-014A
VUE 07-016A
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
R
A
B
3
7
11.5
12.5
(12)
23
12
11.5
18
17.5
20
19.5
19
18.5
1
2
3
18.5
1
17.5
67
20
0.7
23
22
0.7
C
47
11
47.5 11.5
50.5
46.5
11
M6×1
4
47
11.5
51
50
11
54
R1/8
8
54.5 50.5 11.5
11
56.5 53.5
M5×0.8
3
54
11.5
57
53
11
M6×1
4
57.5 53.5 11.5
60.5 56.5
11
R1/8
8
61
57
11.5
50
47
11
M5×0.8
3
47.5 11.5
50.5
46.5
11
M6×1
4
51
47
11.5
54
50
11
R1/8
8
54.5 50.5 11.5
56.5 53.5
11
M5×0.8
3
54
11.5
57
53
11
M6×1
4
57.5 53.5 11.5
60.5 56.5
11
R1/8
8
61
57
11.5
56.5 53.5
11
M5×0.8
3
54
11.5
57
53
11
M6×1
4
57.5 53.5 11.5
60.5 56.5
11
R1/8
8
61
57
11.5
1 Nozzle dia. 2 Final vacuum
M5×0.8
50
L
92
0.5
CAD
Tube dia.
φD
91
91
10
17
20
19
18.5
17.5
20.5
19.5
18.5
19
unit:mm
1
2
3
4 Mass
(mm) (-KPa) (N /min) (N /min) (g)
17.5
17
18
0.5
91
7
11.5
16.5
20
19.5
19
18
19
12.5
0.7
92
23
(12)
18.5
21
20.5
17.5
17
17.5
0.5
12
11.5
17
20
19.5
67
19
20
18
19
0.7
23
18
22
21
20.5
2
3
1
2
3
4
1
2
3
4
19
0.7
91
3 Suction flow
10
17
18.5
21.5
20.5
4 Air consumption.
3
4
392
Vacuum Series Vacuum Generator
CAD
VU
Model
Pipe Type Adapter
P
B
6.5
V
B
C
4
6
4
6
4
6
4
6
4
6
41
41.5
47.5
48
41
41.5
47.5
48
47.5
48
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
VUH 05-4A
VUH 05-6A
VUH 07-4A
VUH 07-6A
VUL 05-4A
VUL 05-6A
VUL 07-4A
VUL 07-6A
VUE 07-4A
VUE 07-6A
φ13
C
φD
Tube dia.
φD
φ10
Nozzle dia. Final vacuum Suction flow Air consumption
(mm)
(-KPa) (N /min) (N /min)
unit:mm
Mass
(g)
0.5
91
7
11.5
11.5
0.7
92
12.5
(12)
23
13
12.5
0.5
67
12
11.5
11.5
0.7
67
20
22
23
0.7
91
10
17
12.5
12
13
12.5
1
2
1
2
1
2
CAD
VU
Model
Pipe Type Straight
Concentrated Exhaust
VUH 05-M54J
VUH 05-M56J
φ13
VUH 05-M64J
φD
VUH 05-M66J
P
VUH 05-014J
VUH 05-016J
VUH 07-M54J
VUH 07-M56J
VUH 07-M64J
EXH
VUH 07-M66J
11.5
H10
VUH 07-014J
20.5
VUH 07-016J
VUL 05-M54J
R
V
VUL 05-M56J
VUL 05-M64J
VUL 05-M66J
VUL 05-014J
Metric Thread Type
VUL 05-016J
VUL 07-M54J
VUL 07-M56J
VUL 07-M64J
VUL 07-M66J
VUL 07-014J
VUL 07-016J
VUE 07-M54J
VUE 07-M56J
VUE 07-M64J
VUE 07-M66J
VUE 07-014J
VUE 07-016J
15
B
A L
A
B
L
E
φ6
φ11
C
2-φ3.2
8.5
Tube dia.
φD
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
R
A
M5×0.8
3
B
L
C
E
50
47
47.5
46.5
47
50
50.5
53.5
54
53
53.5
56.5
57
47
47.5
46.5
47
50
50.5
53.5
54
53
53.5
56.5
57
53.5
54
53
53.5
56.5
57
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
22
22.5
22
22.5
22
22.5
28.5
29
28.5
29
28.5
29
22
22.5
22
22.5
22
22.5
28.5
29
28.5
29
28.5
29
28.5
29
28.5
29
28.5
29
50.5
M6×1
4
R1/8
8
M5×0.8
3
M6×1
4
R1/8
8
51
54
54.5
56.5
57
M5×0.8
3
57.5
60.5
61
50
50.5
M6×1
4
R1/8
8
M5×0.8
3
M6×1
4
51
54
54.5
56.5
57
R1/8
8
M5×0.8
3
M6×1
4
R1/8
8
57.5
60.5
61
56.5
57
57.5
60.5
61
1 Nozzle dia.
2 Final vacuum
unit:mm
1
2
3
4 Mass
(mm) (-KPa) (N /min) (N /min) (g)
20
19.5
20
0.5
91
7
11.5
19.5
22.5
22
21
20.5
21
12.5
0.7
92
23
(12)
20.5
23.5
23
Model
VU Type fixing holder
VUK 05
VUK 07
21
13.5
12
B
0.5
J
393
F
2-φ4.5
12
11.5
67
20
0.7
3
2
3
0.7
23
91
10
1
19
22
21.5
2
3
20
22
17
21
20.5
23
22.5
21.5
20.5
21
2
3
2
23.5
23
3 Suction flow
B
F
J
33
39
9
10
15
20
VUK 05 for nozzle dia. 0.5 · VUK 07 for nozzle dia. 0.7
For A type and J type only.
2
19.5
CAD
VUK
1
3
4 Air consumption.
unit:mm
Mass
(g)
2
2
1
Vacuum Series Vacuum Generator
CAD
VU
Model
Pipe Type Union Straight
Concentrated Exhaust
VUH 05-44J
VUH 05-46J
8.5
VUH 05-64J
P
VUH 05-66J
VUH 07-44J
VUH 07-46J
VUH 07-64J
VUH 07-66J
VUL 05-44J
EXH
VUL 05-46J
11.5
VUL 05-64J
20.5
VUL 05-66J
V
VUL 07-44J
φD1
VUL 07-46J
VUL 07-64J
VUL 07-66J
VUE 07-44J
VUE 07-46J
VUE 07-64J
VUE 07-66J
C1
15
B
E
φ6
φ11
C2
2-φ3.2
φ13
φD2
Tube dia. Tube dia.
φD1 φD2
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
4
6
B
C1
49
11
50
11.5
50.5
55.5
11
56.5
11.5
57
49
11
50
11.5
50.5
55.5
11
56.5
11.5
57
55.5
11
56.5
11.5
57
C2
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
CAD
VU
Model
Pipe Type Adapter
Concentrated Exhaust
6.5 15
B
E
φ6
φ11
C
P
2-φ3.2
8.5
φ13
φD
EXH
11.5
φ10
VUH 05-4J
VUH 05-6J
VUH 07-4J
VUH 07-6J
VUL 05-4J
VUL 05-6J
VUL 07-4J
VUL 07-6J
VUE 07-4J
VUE 07-6J
Tube dia.
φD
B
C
E
4
6
4
6
4
6
4
6
4
6
41
41.5
47.5
48
41
41.5
47.5
48
47.5
48
11
11.5
11
11.5
11
11.5
11
11.5
11
11.5
22
22.5
28.5
29
22
22.5
28.5
29
28.5
29
unit:mm
Nozzle dia. Final vacuum Suction flow Air consumption Mass
E
(mm) (-KPa) (N /min) (N /min) (g)
22
21
22.5
20.5
0.5
91
7
11.5
22
20
22.5
19.5
25.5
22.5
26
12.5
0.7
92
23
21.5
(12)
25.5
26
22
22.5
22
22.5
25.5
26
25.5
26
25.5
26
25.5
26
0.5
12
11.5
67
20
0.7
23
22
20.5
21
20.5
20
19.5
22
21.5
21
20.5
2
1
2
22
0.7
91
10
17
21.5
20.5
unit:mm
Nozzle dia. Final vacuum Suction flow Air consumption Mass
(g)
(mm) (-KPa) (N /min) (N /min)
13.5
0.5
91
7
11.5
13
15
12.5
0.7
92
23
(12)
14.5
13.5
0.5
12
11.5
13
67
15
0.7
23
22
14
0.7
1
91
10
17
1
2
1
2
1
2
14.5
1
20.5
2
V
CAD
VM
Model
A
B
L
Pad Direct-Mounting Elbow VMH 05-M54
6
2-H7
VMH 05-M64
VML 05-M54
VML 05-M64
A
B
L
M5×0.8
M6×1
M5×0.8
M6×1
3.5
5.5
3.5
5.5
14.5
15.5
14.5
15.5
11
10
11
10
0.5
67
11
11.5
17
1
M
V
10
P
19
8
16
11
φ8
φ4
9
M
unit:mm
Nozzle dia. Final vacuum Suction flow Air consumption Mass
(g)
(mm) (-KPa) (N /min) (N /min)
17
0.5
91
7
11.5
17.5
EXH
394
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