Pneumatic Angle Sander LSV29
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
Pneumatic Angle Sander LSV29 is a small yet powerful sander that comes with an insulated grip and in various speed . The extra durable angle gear requires minimum lubrication. This means improved working conditions, better sanding results and minimal maintenance. Country of origin is HU. Customs tariff is 84671110

Technical Specifications

Design & Functions
Auto balancer
No
Model type
Angle
Motor type
Vane
SCIP
e25c2927-2983-4abe-b26b-feb3a3a3a3a6
Speed
Max free speed
6000 r/min
Noise & vibrations
Sound power
93 dB(A)
Sound pressure
82 dB(A)
Sound standard
ISO15744
Sound uncertainty
3 dB(A)
Vibration standard
ISO28927-3
Vibration value
<2.5 m/s²
Certifications, standards & directives
EAC certified
Yes
EU directives
2006/42/EC
EC standard
EN ISO 11148-8:2011
UK legislation
S.I. 2008/1597
UK standard
EN ISO 11148-8:2011
Design
Support handle included
Yes
Dimension & weight
Air inlet thread BSP
3/8 in
Height
93 mm
Height over spindle
86 mm
Length
266 mm
Max pad dia
180 mm
Rec hose size
13 mm
Spindle length
23 mm
Spindle thread
M14
Weight
1.5 kg
Air information
Air consumption at free speed
7 l/s
Air consumption at max output
20 l/s
Max working pressure
6.3 bar
Lubrication
Lubrication Free
Yes
Power
Max output
0.8 kW
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo
LSV29 S060-M14 product photo

LSV29 S060-M14

8423 0127 50
dimention
Dimensions 44.7 x 9.3 x 17.7 cm
weight
Weight 2.48 kg

Benefits

Optimal process speed
Long service intervals
Low noise levels
Great operator comfort

Features

High power even at low speed
Integrated speed governor
Sealed angle head
Lubrication free air motor
Exhaust hose included
Ergonomic design