Modular feeding technology 2016

Modular feeding technology 01 Feeding Handling Transporting

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Table of contents Linear feeder 1 Bowl feeder drives Feeding bowls Refilling units Control devices Afag-Chrome-Line feeding components Flex feeding Diagnostics and training 8 Project-specific components 9 Keyword directory 10

Feeding technology 01

Table of contents Technical description Micro-spreading technique Reactive force compensation Linear feeder HLF-M 1 HLF-P 18 PSG1 KLF 8 LF Sub-structure linear feeder Bowl feeder drives BF WV Sub-structure bowl feeder drives Feeding bowls Blank bowl BB Step helix BB-S Groove helix BB-N Radius helix BB-R Stepped bowls TS 8 Refilling units Refillable vibratoy hopper NVB 8 Vibratory hopper NVD 8 Conveyor belt hopper NBB 88 Control devices Phase angle controller IRG 98 Control device Smart Box 10 Control device SIGA 10 Afag-Chrome-Line feeding components Feeding station 110 Base plate 11 Base frame GG 11 Buffer control 11 Light barrier GL 118 Level control device 10 Collecting container 1 Bowl cover 1 Flex Feeding Aflex 18 Flipconveyor 10 Diagnostic and training Workshop and training 1 Laboratory instrument QRG 1 Handheld demagnetizer HEM 1 Feeding technology 01

Micro-spreading technique A vibratory feeder is a device transforming electro-magnetically produced vibrations by means of magnet, magnet armature and leaf springs into mechanical vibrations and uses them to convey loads. The targeted conveying movement of the work piece is based on the micro-spreading principle, where the form of movement of the conveying device forces the work piece into a micro spreading movement. A Work piece B Conveyor track α Angle of trajectory β Angle of inclination γ Angle of ascent The conditions of movement can be described as follows: 1 Stationary condition Propulsion Trajectory parabola Impact During propulsion, the work piece lifts off from the surface of the conveying device when the vertical normal acceleration acting on the material exceeds the acceleration due to gravity. Contact between the work piece and the conveying device is completely removed. The impact following propulsion occurs as an energetic semi-elastic shock and is the main cause of the noise emissions, which are dependent on the nature of the work piece and conveying organ. In the stationary condition, there is no relative motion between the work piece and conveying device and there is static friction between the partners. If normal acceleration exceeds the amount of the maximum static friction, the work piece moves again into the spread state of motion. Feeding technology 01

Reactive force compensation F 1 C 1 m m 1 F 1 C 1 m 1 m F = F1 F 1 C 1 m 1 F F = 1 C m F = F 1 F 1 C 1 C F F = F 1 C 1 m F 1 m Conventional -mass vibration system Counter vibration principle Coupled counter-vibration principle Notation F1, F Forces F1, F Reactive forces m1 Useful mass m Counter mass m Base attached to the underground c1, c Springs Reactive force compensation Afag bowl feeder WV and linear LF feeders operate on the conventional twin-mass vibration principle. The reactive force created by the vibration of the useful mass (m 1 ) is compensated by a larger foundation (counter) mass (m ). Afag bowl feeder BF and linear HLF and KLF feeders operate on the counter vibration principle with reactive force compensation. Here a useful mass (m 1 ) vibrates in precisely the opposite direction to a counter mass (m ). The useful and counter masses are attached to a base ring respectively base plate by means of leaf springs. Equal reactive forces are created, which are transmitted via the leaf springs to the base plate while maintaining the mass moment of inertia and the mass of the feeder bowl or the feeder rail when the useful and counter masses vibrate. By reason of the vibration of the useful mass and counter mass in the opposite direction the reactive forces at the base plate virtually counterbalance each other. Avoidance of vibration transmission to the underground enables attachment to the base, and a precisely defined and fixed interface between the feed and assembling facilities can be guaranteed. Feeding technology 01

1 1 1 Linear feeder Track Cover Side plate Trim weight Sub-structure 8 Feeding technology 01

Linear feeder Linear feeder Linear feeder HLF-M 1 Linear feeder HLF-P 18 Control devices PSG1 Accessory HLF Linear feeder KLF 8 Accessory KLF Linear feeder LF Accessory LF 0 Sub-structure linear feeder 1 Feeding technology 01 9

Linear feeder HLF The Afag hybrid Magnet or piezo 1 0 Feeding technology 01

HLF HLF - the new Afag generation of linear feeders stands for Hybrid Linear Feeder. Depending on application, the drive technology best suited for the project-specific requirements can be selected for this new type of linear feeder. The drive systems available include the familiar actuation based on an oscillating magnet (HLF-M) and a new patented piezoelectric drive (HLF-P). The mechanical interfaces are identical irrespective of the drive system. This allows the drive system to be changed easily. The advantages of the piezo driven linear feeder are particularly evident when feeding extremely small parts: Even more precise air gap between track transitions (< 0.1 mm) may be achieved depending on application Finer oscillation (approximating to sliding motion) Smaller tolerances / parts are conducted more closely in the track even better precision No mechanical adjustment required before operation No modifications for operation in 0/0 Hz power supply systems The conveying rate is not influenced by voltage fluctuations in the power system No environmental electromagnetic influence on the system High energy efficiency (high energy saving potential compared to magnetic technology) External mechanical interfaces are compatible with magnetic technology Reactive force compensation (as for magnetic technology) 1 The new linear feeders (both drive systems) have a compact, closed design with optimized reactive force compensation. This is based on dynamic balancing of the weight and counterweight, eliminating the majority of free oscillating forces directly in the machine. Another new feature is the long and broad mounting surface of the conveying tracks, which considerably extends track design options. Feeding technology 01 11

Linear feeder HLF-M Compendium Accessories HLF-M 1 Feeding technology 01

HLF-M For fastening the rail to the HLF two variants are possible: 1 Variant 1 Construction with side plate O Variant Construction with side plate S Feeding technology 01 1

E Linear feeder HLF-M HLF0--M P A X S F Z E/ Ø D1 R -Y +Y S H M E B Ø D Ø D C K G N R S = Feeding direction = Track center of gravity 1 1 Feeding technology 01

Technical data HLF-M Type HLF0-M HLF1-M HLF-M Order no. 0 V / 0 Hz 000 099 09 11 V / 0 Hz 0018 000 0089 Dimensions Units A [mm] max. 00 max. 00 max. 00 B [mm] 0 8 C [mm] 10 10 10 D1 [mm] 9 9 D --- x M x M x M D [mm] x H x H x H E [mm] 0 F [mm] 80 108 G [mm] 80 100 10 H [mm] 0 9 8 K [mm] 0 80 100 M [mm] 10 00 0 N [mm] P [mm] 10 180 0 1 Centre of gravity of rail X [mm] 8 ± 10 10 ± 10 1 ± 0 Y [mm] 0 ± 9 0 ± 10 0 ± 1 Z [mm] ± 8. 8 ± 11 110 ± 1 Technical data Useful mass 0. ± 0.1 kg 1. ± 0.1 kg. ± 0.1 kg Weight device 1. kg.00 kg.1 kg Max. speed m/min m/min m/min Power 1 VA 19 VA 100 VA Protection class IP IP IP Reactive force compensation Vibrator frequency (electric) in Hz 0/0 0/0 0/0 Mechanical vibrations per min 000/00 000/00 000/00 Scope of delivery Device Springs = existent Note: Refer to p. 98 for appropriate control devices. Track not included in scope of supply. Feeding technology 01 1

Linear feeder HLF-M Compendium Mechanical connection of HLF feeders 1 To realize tracks with a large maximum length, the useful and counter masses can be mechanically connected up to HLF feeders and operated by a single control unit. 1 Feeding technology 01

Technical data HLF-M Notation 1 Drive Four way splitter for vibration drives Control device 1 Accessory linear feeder Four way splitter for vibration drives Order no. 00 A E C F G B D Dimensions Units A [mm] 9 B [mm] 1 C [mm] 11 D [mm] E [mm] 18 F [mm] 1 G [mm]. Feeding technology 01 1

Linear feeder HLF-P Compendium Accessories HLF-P 1 8 Feeding technology 01

HLF-P For fastening the rail to the HLF two variants are possible: 1 Variant 1 Construction with side plate O Variant Construction with side plate S Feeding technology 01 19

E Linear feeder HLF-P HLF0-1-P P X A +Y-Y S S F Z E/ Ø D1 R H E M Ø D Ø D B C K G N 1 R S = Feeding direction = Track center of gravity 0 Feeding technology 01

Technical data HLF-P Type HLF0-P HLF1-P Order no. 0 V / 11 Hz 0009 099 Dimensions Units A [mm] max. 0 max. 0 B [mm] 0 C [mm] 10 10 D1 [mm] 9 D --- x M x M D [mm] x H x H E [mm] F [mm] 80 G [mm] 80 100 H [mm] 0 9 K [mm] 0 80 M [mm] 10 00 N [mm] P [mm] 10 180 1 Centre of gravity of rail X [mm] 8 ± 10 10 ± 10 Y [mm] 0 ± 9 0 ± 10 Z [mm] ± 8. 8 ± 11 Technical data Useful mass 0. ± 0.1 kg 1. ± 0.1 kg Weight device 1. kg.00 kg Max. speed m/min m/min Power VA VA Protection class IP1 IP1 Reactive force compensation Vibrator frequency (electric) in Hz 0/0 190/10 Mechanical vibrations per min 100/100 1100/100 Scope of delivery Device = existent Note: Refer to p. for appropriate control devices. Track not included in scope of supply. Feeding technology 01 1

Control devices PSG1 PSG1 A D C H G B E F Feeding technology 01

Technical data PSG1 Piezoelectic control device PSG1 Order no. 0 V / 11 Hz 0118 Dimensions Units A [mm] 9 B [mm] 0 C [mm] 1. D [mm] E [mm] 19 F [mm] 0 G [mm]. H [mm] 9 1 Technical data Mains frequency 0 / 0 Hz Output voltage -0-10 V Output current max. 0.1 A Output frequency - 00 Hz Enable input Contact or V DC Operating temperature 0 - C Recommended fuse Type D MCB Protection class IP External target value preset 0-0 ma (DC) Note on selecting control device: Control unit PSG1 only for use with the HLF-P. Feeding technology 01

Accessory Linear feeders HLF Alternative assembly variants for accessory 1 1 1 1 Side plate O F A E C H B G D * Side plate S A F E D B K G H * C * Slot only for HLF-M Feeding technology 01

Technical data HLF Alternative assembly variants for accessory Notation 1 Linear feeder Track Side plate O Side plate S Trim weight useful mass Trim weight counterweight 1 Side plate O HLF0 HLF1 HLF Order no. 0198 0198 0198 Dimensions Units A [mm] 11 10 188 B [mm] 11. 1 1 C [mm] 11. 1. 1 D [mm]... E [mm] 10 18 1 F [mm] --- --- 88 G [mm] H [mm]... Weight [g] 9 1 0 Side plate S HLF0 HLF1 HLF Order no. 0191 011 011 Dimensions Units A [mm] 11 10 188 B [mm] C [mm]... D [mm]... E [mm] 10 18 1 F [mm] --- --- 88 G [mm] H [mm] 11 1 1 K [mm] 1 1 1 Weight [g] 90 1 18 Feeding technology 01

Accessory linear feeders HLF Trim weight - Useful mass E A D C L A B F * * Borehole only for HLF-M Trim weight - Counterweight B C Leaf spring W T Feeding technology 01

Technical data HLF Trim weight - Useful mass HLF0 HLF1 HLF Order no. 0198 0119 011 Dimensions Units A [mm] 11 18 18 B [mm] 10 1 1 C [mm] D [mm]... E [mm] --- --- 88 F [mm] 10 18 1 Weight [g] 0 100 1 Trim weight - Counterweight HLF0 HLF1 HLF Order no. 019 0108 011 Dimensions Units A [mm] B [mm] 1. 1.1 C [mm] Weight [g] 1 0 Leaf spring HLF0 HLF1 HLF Order no. 008 001 01 Dimensions Units L [mm] W [mm] 0 T [mm] 0.8 0.8 1. Magnet HLF0-M HLF1-M HLF-M Order no. 0 V / 0 Hz 100 0 0008 110 V / 0 Hz 1008 090 08008 Feeding technology 01

Linear feeder KLF Compendium Accessories KLF 8 Feeding technology 01

KLF For fastening the rail to the KLF two variants are possible: 1 Variant 1 Construction with side plate Variant Construction with bracket Feeding technology 01 9

Linear feeder KLF KLF K D N A C C A/ F H R S G E D1 M R S = Feeding direction = Track center of gravity C/ B KLF - K E/ D C P C A R A/ G S F E C/ H M R S = Feeding direction = Track center of gravity 0 Feeding technology 01

Technical data KLF Type KLF KLF KLF1 KLF Order no. 0 V / 0 Hz 109 1109 1011 108 11 V / 0 Hz 10019 1118 10108 11998 1 Dimensions Units A [mm] 10-0 00-00 00-00 00-800 B [mm] 1 - - - - - - - - - C [mm] 1 1 9 D1 [mm]. - - - - - - - - - D [mm] 9 10 E [mm] 0 0 F [mm] 9 108 1 G [mm] 1 10 0 H [mm] 8.9 99. 1 K [mm] 1 1 80 M [mm] 90 10 00 00 N [mm] - - - - - - - - - P [mm] - - -.. Technical data Useful mass 0. kg 0. kg 1.80 kg.00 kg Weight device 0. kg 1 kg kg 8.9 kg Max. speed m/min m/min m/min m/min Power 10 VA 1 VA VA 0 VA Protection class IP IP IP IP Reactive force compensation Trim weight 0. kg 0. kg 1.0 kg.00 kg Vibrator frequency (electric) in Hz 0/0 0/0 0/0 0/0 Mechanical vibrations per min 000/00 000/00 000/00 000/00 Scope of delivery Device Bracket --- x g x 1 g x 0 g Springs Trim weights x 0 g x 100 g x 00 g x 800 g 1 x 00 g - - - = nonexistent = existent Note: Refer to p. 98 for appropriate control devices. Track not included in scope of supply. Feeding technology 01 1

Accessory linear feeders KLF Alternative assembly variants for accessory Bracket A B C G C E D F Side plate A B C D E F G Feeding technology 01

Technical data KLF Alternative assembly variants for accessory Notation 1 Side plate Track Trim weight Bracket Linear feeder Divided track 1 Bracket KLF KLF1 KLF Order no. 109 10 108 Dimensions Units A [mm] 10 1 B [mm] 8 8 10 C [mm] 1 0 D [mm] E [mm]... F [mm]. 9 11. G [mm]... Weight [g] 1 Side plate KLF KLF1 KLF Order no. 111 1101 101088 Dimensions Units A [mm] 8 11 18 B [mm] 8 8 10 C [mm]... D [mm].8.8 9.8 E [mm] 1... F [mm] G [mm]... Weight [g] 0 190 00 Feeding technology 01

Accessory linear feeders KLF Trim weight Leaf spring Feeding technology 01

Technical data KLF Trim weight KLF KLF KLF KLF1 KLF1 KLF KLF Order no. 118 109 1180 1198 10810 10019 1080 Dimensions Units A [mm] 10 1 1 10 10 00 00 B [mm] 1 1 1 0 0 C [mm] 1 8 8 8 8 10 10 D [mm]. E [mm] 0 0 F [mm] 1 Weight [g] 0 0 100 100 00 00 800 1 Leaf spring KLF KLF KLF1 KLF Order no. 10110 1198 101 10 Dimensions Units L [mm] 1 9 W [mm] 0 0 T [mm] 0. 0.8 1..0 Magnet KLF KLF KLF1 KLF Order no. 0 V / 0 Hz 100 100 111 11109 11 V / 0 Hz 1008 1008 1181 1101 Feeding technology 01

Linear feeder LF Compendium Accessories LF Feeding technology 01

LF For fastening the rail to the LF two variants are possible: 1 Variant 1 Construction with adapter plate Variant Construction without an adapter plate Feeding technology 01

Linear feeder LF LF9 D1 I K L R R S = Feeding direction = Track center of gravity 8 Feeding technology 01

Technical data LF Type LF9 Order no. 0 V / 0 Hz 1108 Dimensions Units A [mm] Max. 0 B [mm] C [mm] 0 D1 --- x M D --- x M E [mm] F [mm] 9 G [mm] H [mm] 1 I [mm] --- K [mm] 8 L [mm] --- M [mm] 89 N [mm] 1 Technical data Useful mass 1 kg Weight device 0. kg Max. speed m/min Power 0.8 VA Protection class IP0 Reactive force compensation --- Vibrator frequency (electric) in Hz 0 Vibrator frequency [Vibrations per min] 000 Scope of delivery Device Additional plug Springs - - - = nonexistent = existent Note: Refer to p. 98 for appropriate control devices. Track not included in scope of supply. Feeding technology 01 9

Accessory linear feeders LF Adapter plate A D E * B F C * Adapter plate LF9 with slots, LF11 without boreholes Leaf spring 0 Feeding technology 01

Technical data LF Adapter plate LF9 Order no. 001 Dimensions Units A [mm] 100 B [mm] 0 C [mm] 88 D [mm] E [mm] F [mm] 18 1 Leaf spring LF9 Order no. 11890 Dimensions Units L [mm] W [mm] 0 T [mm] 0. Magnet LF9 Order no. 0 V / 0 Hz 10 Feeding technology 01 1

Sub-structure linear feeder KLF / HLF / LF Block sub-structure x D1 x D x D N G K C F H A M E B 1 Feeding technology 01

Technical data KLF / HLF / LF Item No. 1 - Base plate* Block 0 Block 0 Order no. 00 0110 Dimensions Units A [mm] 0 0 B [mm] 1 0 C [mm] 0 0 D1 [mm] 11 11 E [mm] 10 180 D --- M8 M8 1 Item No. - Block** body 1 mm grading Order no. on request on request Dimensions Units A [mm] 0 0 F [mm] 1 00 1 M [mm] 0 110 Item No. - Bar Order no. 00898 00901 0090 Dimensions Units A [mm] 0 0 0 G [mm] 1 H [mm] 9 9 9 D --- M M8 M8 K [mm]. 8 N [mm] 10 10 1 Suitable for linear feeder: KLF --- --- KLF1 --- --- KLF --- --- HLF --- --- HLF1 --- --- HLF --- --- HLF0 --- --- *screwed on machine table overarm with mating dimensions E and D1 **screwed on machine table bottom up with mating dimensions M and D Note: Material: 1.00.0, galvanically galvanises and blue chromated. Ordering of the items depending on application. Feeding technology 01

1 1 1 Bowl feeder drive Feeding bowl Central fixing Mounting plate Column Clamp foot Levelling base Feeding technology 01

Bowl feeder drives Bowl feeder drives Bowl feeder drives BF Accessory BF Bowl feeder drives WV Accessory TS Accessory WV Sub-structure bowl feeder drives Feeding technology 01

Bowl feeder drives BF Compendium Accessories BF Feeding technology 01

BF For the attachment of the BF variants are possible: Construction with fixing plate, column and mounting attachment Construction with leveling feet Feeding technology 01

Bowl feeder drives BF BF10-1 A B D D1 D E1 E E D X 8 Feeding technology 01

Technical data BF Type BF10 BF1 Order no. Right * - 1 ** 0 V / 0 Hz 0018 00190 Left * - 1 ** 0 V / 0 Hz 008 0098 Right * - 1 ** 11 V / 0 Hz 0019 0018 Left * - 1 ** 11 V / 0 Hz 00180 0018 Dimensions Units A [mm] 10 10 B [mm] 90 D1 [mm] H H D [mm] H H D --- x M x M D --- M M E1 [mm] 1 E [mm] 8 E [mm] 0 10 X [ ] 10 10 Technical data Admissible moment of inertia ±10 % 0.0 kgdm² 0.1 kgdm² Admissible bowl weight ±0 % 0.1 kg 0. kg Weight device. kg. kg Power 11 VA. VA Protection class IP IP Reactive force compensation Vibrator frequency (electric) in Hz 0/0 0/0 Mechanical vibrations per min 000/00 000/00 Scope of delivery Device Number of springs Number of spacers 1 1 = available *delivery direction (right = clockwise / left = anticlockwise) **angle of the gradient of the leaf springs Note: Refer to p. 98 for appropriate control devices. Feeding technology 01 9

Bowl feeder drives BF BF0-0 A B H C X1 X X D D D1 E E E1 D E D E 0 Feeding technology 01

Technical data BF Type BF0 BF BF0 BF BF0 BF0 Order no. Right * - 1 ** 0 V / 0 Hz 00811 008101 0019 0010 001 0081 Left * - 1 ** 0 V / 0 Hz 008118 008100 0018 0018 0011 0081 Right * - 18 ** 0 V / 0 Hz 0019 00081 00880 009 0008 001 Left * - 18 ** 0 V / 0 Hz 00808 00081 008 0098 0008 0011 Right * - 1 ** 11 V / 0 Hz 0019 00198 000 000 0010 001 Left * - 1 ** 11 V / 0 Hz 0019 00199 000 000 0011 001 Right * - 18 ** 11 V / 0 Hz 0019 0000 000 0008 001 001 Left * - 18 ** 11 V / 0 Hz 0019 0001 000 0009 001 001 Dimensions Units A [mm] 180 0 0 0 B [mm] 1 19 19 9 9 0 C [mm] D1 --- x M x M x M8 x M8 x M8 x M8 D [mm] H H H H H H D --- --- --- M M M M D [mm] --- H H H --- M8 D --- M8 M10 M10 M10 M1 M1 E1 [mm] 10 10 19 19 19 80 E [mm] 8 10 10 1 1 0 E [mm] --- --- --- --- --- 0 E [mm] --- 1 1 1 --- 8 E [mm] --- --- 18 18 0 00 H [mm] 90 9 100 10 11 10 X1 [ ] 10 10 10 10 10 10 X [ ] --- --- 90 90 0 0 X [ ] --- --- --- --- --- 0 Technical data Admissible moment of inertia ±10 % 1.0 kgdm². kgdm². kgdm² 8.8 kgdm² 1.0 kgdm².0 kgdm² Admissible bowl weight ±0 %.0 kg.0 kg.0 kg.0 kg 9.0 kg 0.0 kg Weight device. kg 1.0 kg 1. kg. kg. kg. kg Power 9 VA 9 VA 1 VA 1 VA 180 VA 90 VA Protection class IP IP IP IP IP IP Reactive force compensation Vibrator frequency (electric) in Hz 0/0 0/0 0/0 0/0 0/0 0/0 Mechanical vibrations per min 000 / 00 000 / 00 000 / 00 000 / 00 000 / 00 000 / 00 Scope of delivery Device Number of springs Number of spacers 1 1 1 1 1 1 = available - - - = nonexistent **delivery direction (right = clockwise / left = anticlockwise) **angle of the gradient of the leaf springs Note: Refer to p. 98 for appropriate control devices. Feeding technology 01 1

Accessory bowl feeder drives BF Leaf spring Spacer C D 0, A B Feeding technology 01 - - - = nonexistent Note: Two spacers belong to one leaf spring.

Technical data BF Leaf spring BF10 BF1 BF0 BF Order no. 118 0080191 00080 00080 Dimensions Units A [mm] 0. 0. 0.8 0.8 B [mm] 1 1 C [mm] 1 8 Leaf spring BF0 BF0 BF BF0 BF0 Order no. 0011 1118 1118 0008 001 Dimensions Units A [mm] 1 1. 1. 1..0 B [mm] 0 0 0 0 C [mm] 80 80 80 88 11 Spacer BF10 BF1 BF0 BF Order no. 11019 10880 000808 000808 Dimensions Units A [mm] --- --- 0. 0. B [mm] --- --- 1 1 C [mm] --- --- D [mm] 10 1 --- --- Spacer BF0 BF BF0 BF0 Order no. 001 001 001 001 Dimensions Units A [mm] 0. 0. 0. 0. B [mm] 18. 18. 18. C [mm] 0 0 0 D [mm] --- --- --- --- Magnet BF10 BF1 BF0 BF Order no. 0 V / 0 Hz 108 0008 00 00 110 V / 0 Hz 1080 08008 009 009 Magnet BF0 BF BF0 BF0 Order no. 0 V / 0 Hz 111 111 111 10119 110 V / 0 Hz 1181 1181 1181 11098 Feeding technology 01

Bowl feeder drives WV Compendium Accessories WV 11-10 Feeding technology 01

WV For the attachment of the WV 11-10 variants are possible: Construction with fixing plate, column and mounting attachment Construction with leveling feet Feeding technology 01

Bowl feeder drives WV WV 11-10 A H D E D1 Feeding technology 01

Technical data WV Type WV11-1 WV01-1 WV10-1 Order no. Right * - ** 1100 11000 1100 Left * - ** 1100 11009 1100 Right * - 0 ** 1101891 110189 110189 Left * - 0 ** 1101890 110189 110189 Dimensions Units A [mm] 1 19 9 D1 --- M M8 M8 D --- x M x M x M E [mm] 10 10 H [mm] 110 180 180 Technical data Admissible bowl weight 1.1 kg.0 kg. kg Elec. configuration *** 0 V / 0 Hz 0 V / 0 Hz 0 V / 0 Hz Weight device.0 kg 1.0 kg.0 kg Power VA 1 VA 1 VA Protection class IP IP IP Vibrator frequency (electric) in Hz 0 0 0 Mechanical vibrations per min 000 000 000 Scope of delivery Device Number of springs Number of spacers --- 8 8 = available - - - = nonexistent *delivery direction (right = clockwise / left = anticlockwise) **angle of the gradient of the leaf springs ***other electr. configurations on request Note: Refer to p. 98 for appropriate control devices. Feeding technology 01

Bowl feeder drives WV Compendium Accessories WV 01-0 8 Feeding technology 01

WV Attachment of WV 01 and 0 Construction with leveling feet Feeding technology 01 9

Bowl feeder drives WV WV 01-0 A1 A M A K L D H D D1 E1 E D E E D X X X1 0 Feeding technology 01

Technical data WV Type WV01-1 WV0-1 Order no. Right * 0 V / 000 vpm ** 01 --- Left * 0 V / 000 vpm ** 01 --- Right * 0 V / 000 vpm ** --- 01019 Left * 0 V / 000 vpm ** --- 01018 Right * 11 V / 00 vpm ** 01 --- Left * 11 V / 00 vpm ** 01 --- Right * 11 V / 00 vpm ** --- 011 Left * 11 V / 00 vpm ** --- 018 Dimensions Units A1 [mm] 0 0 A [mm] 19 19 A [mm] 00 00 D1 [mm] 8 x 9 8 x 9 D [mm] x 8H x 8H D --- x M10 x M10 D --- 1 x M 1 x M D --- x M8 x M8 E1 [mm] 00 00 E [mm] 0 0 E [mm] 0 0 E [mm] 0 0 H [mm] K [mm] 1. 1. L [mm].0.0 M [mm] X1 [mm] 1 1 X [mm] 1 1 X [mm] 0 0 Technical data Admissible bowl weight 0 kg 0 kg Weight device 10 kg 10 kg Power 10 VA 118 VA Protection class IP IP Scope of delivery Device Number of springs Number of spacers 8 8 = available - - - = nonexistent *delivery direction (right = clockwise / left = anticlockwise) **vibrator frequency (Vibrations per minute in half-wave mode respectively full-wave mode) Note: Refer to p. 98 for appropriate control devices. For the central fixation of a feeding bowl a adapter plate (see page ) is required. Feeding technology 01 1

Bowl feeder drives WV Mounting options WV01-1 and WV0-1 Radial attachment 1 1 Attachment from above 1 1 Attachment from below 1 1 Adapter plate for central fixation 1 1 Feeding technology 01

Technical data WV / TS Notation 1 Drive Bowl Bolt Adapter plate Accessory Adapter plate TS0-1 centrical fixation D A Adapter plate TS0-1 Order no. Centrical fixation 010 Dimensions Units A [mm]. D [mm] 0 Feeding technology 01

Accessory bowl feeder drives WV Leaf spring Spacer A A C C B WV01-10 WV01-0 Feeding technology 01

Technical data WV Leaf spring WV11-1 WV01-1 WV10-1 WV01-1 WV0-1 Order no. 110010 1100 1100 0100 001 Dimensions Units A [mm] 0. B [mm] 10 1 1 0 C [mm] 0 100 100 10 11 Order no. 110011 11008 11008 --- --- Dimensions Units A [mm] 1 - - - - - - B [mm] 10 1 1 - - - - - - C [mm] 0 100 100 - - - - - - Spacer WV11-1 WV01-1 WV10-1 WV01-1 WV0-1 Order no. --- 100 100 01008 001 Dimensions Units A [mm] - - - 1 1 0 B [mm] - - - - - - - - - C [mm] - - - 0. 1. 0. 0. Magnet WV11-1 WV01-1 WV10-1 WV01-1 WV0-1 Order no. 0 V / 0 Hz 0 09 09 111 10119 11 V / 0 Hz on request on request on request 10181 11098 - - - = nonexistent Note: Two spacers belong to one leaf spring. Feeding technology 01

Sub-structure bowl feeder drives BF / WV Item No. 1 - Mounting plate* A 1 B C A For BF C For WV 1 Item No. - Column** 10 mm grading N E H F L G K L O D Item No. - Clamp foot* M *material 1.00.0, galvanically galvanises and blue chromated **material 1.0, blanc Feeding technology 01

Technical data BF / WV Item No. 1 - Mounting plate* BF 10 BF 1 BF 0 BF Order no. 0011 0011 001 001 Dimensions Units A [mm] 10 10 10 10 B [mm] 9 9 1 1 C [mm] 1 1 1 1 PosNr. 1 - Mounting plate** BF 0 BF BF 0 BF 0 Order no. 001 001 001 0011 Dimensions Units A [mm] 0 0 0 80 B [mm] 180 180 180 0 C [mm] 1 1 1 1 PosNr. 1 - Mounting plate** WV11-1 WV01-1 WV10-1 Order no. 00111 00109 00199 Dimensions Units A [mm] 10 10 00 B [mm] --- --- --- C [mm] 1 1 1 Item No. - Column** Order no. on request Dimensions Units D [mm] L 10 mm grading [mm] 0 10 N [mm] 8 O [mm] Item No. - Clamp foot* Low High Order no. 01 0198 Dimensions Units E [mm] 1 1 F [mm] 0 G [mm] 0 0 H [mm] 0 K [mm] 1 1 L [mm] 1 1 M [mm] 0 0 - - - = nonexistent Note: Ordering of the items depending on application. Feeding technology 01

Sub-structure bowl feeder drives BF / WV Assembly accessory 1 Levelling base* A B F E D C 8 Feeding technology 01

Technical data BF / WV Assembly accessory Notation 1 Levelling base Spacer Bowl feeder drive Levelling base* Short Long Large Order no. 0019 01 091 Required number of levelling base for: BF10 to BF0 --- BF0 WV11-1 to WV10-1 --- WV00 Order no. Spacer ** mm 0018 0018 080 Spacer ** 10 mm 0018 0018 098 Spacer ** 0 mm 0018 0018 09 Dimensions Units A [mm] 9-0 9-0 - 0 B [mm] 80 11 10 C [mm] 9 9 11 D [mm] E [mm].. 0 F [mm]. 9. 110 Scope of delivery Levelling base Spacer mm * material: 1.00.0, galvanically galvanises and blue chromated **material: 1.018, galvanically galvanises and blue chromated = available Feeding technology 01 9

1 1 1 Feeding bowl Spring washer set Adapter plate Bowl feeder drive 0 Feeding technology 01

Feeding bowls Feeding bowls Blank bowl BB Step helix BB-S Groove helix BB-N Radius helix BB-R Stepped bowls TS 8 Accessory feeding bowls 80 Feeding technology 01 1

S Feeding bowls BB Blank bowl Ø D1 Ø D W H h Ø D Ø D Feeding technology 01

Technical data BB Blank bowl BB10 BB1 BB0 BB BB0 Order no. Polyamide 00101 0010 0010 0010 001081 FDA-Polyamide (white) 08 0898 0899 080 080 Dimensions Units D1 [mm] 10 1 10 0 10 D [mm] 80 11 10 08 0 D [mm] 9 1 1 D [mm] 8 10 19 1 0 H [mm] 8 98 h [mm].9 1.0 0.0. 8.1 S [mm] 11. 1. 19..1 0. W [ ] Technical data Load volume * [l] 0.0 0. 0. 1.1 1.8 Weight [kg] 0.1 0. 1.1.. Moment of inertia [kg * dm²] 0.0 0.1 0..1.1 Recommended drive BF10 BF1 WV11-1 BF0 WV11-1 BF WV01-1 BF0 WV01-1 Blank bowl BB BB0 BB0 BB Order no. Polyamide 00108 00108 001091 01911 FDA-Polyamide (white) 080 080 0808 0809 Dimensions Units D1 [mm] 1 10 0 D [mm] 00 80 0 D [mm] 1 1 0 D [mm] 0 0 00 H [mm] 1 1 h [mm] 10.9 19. 18. 19.0 S [mm].. 0 W [ ] Technical data Load volume * [l]..1 9. 1. Weight [kg].9 8,9 1,. Moment of inertia [kg * dm²] 11.0 1. 9. 19. Blind plug polyamide including --- --- --- Blind plug FDA-polyamide including --- --- --- Recommended drive BF WV10-1 BF0 BF0 WV01-1 WV0-1 *theoretical value, current load volume largely dependent on the component to be fed and the specific project conditions Note: Conical spring washer see page 80. Feeding technology 01

Feeding bowls BB-S E F 10 S A H C B TH ØTD A L A Step helix BB10-S BB1-S BB0-S BB-S BB0-S BB-S BB0-S BB0-S Order no. Right * 099 091 09 09 09 099 091 09 Left * 090 09 09 09 098 090 09 09 Right - FDA 009 081 0090 009 009 0099 009 0099 Left - FDA 009 0099 0091 009 0098 0090 009 00980 Dimen. Units S [mm] 8 10 18 0 0 A [mm]... 9 10 B [mm]. 9 1. 18. 8 H [mm] 8 1 1 18 0 0 C [mm].. 8. 11. 1 E [mm] 8 10 1 1 0 F [mm] 9 1 1 18 1 L [mm] 10 1 0 0 0 0 TH [mm] 8 98 1 1 19. TD [mm] 10 1 10 0 10 1 10 *delivery direction (right = clockwise / left = anticlockwise) Note: Recommended drives and further information, see p.. Bowl with FDA-certification on demand. Feeding technology 01

Feeding bowls BB-N E F 1 0 A B C TH H S A L A ØTD Groove helix BB10-N BB1-N BB0-N BB-N BB0-N BB-N BB0-N BB0-N Order no. Right * 09 09 099 091 09 09 09 099 Left * 09 098 090 09 09 09 098 090 Right - FDA 00981 0098 0098 00989 0099 00900 0090 00908 Left - FDA 0098 0098 0098 0099 00999 00901 0090 00909 Dimen. Units S [mm] 8 10 18 0 0 A [mm] 8 1 1 1 19 B [mm] 8 1 1 1 19 H [mm] 8 1 1 18 0 0 C [mm].. 8. 10 1 E [mm] 8 1 1 1 19 F [mm]. 8 11 1 1 0 L [mm]. 10 1. 1 1. 0 TH [mm] 8 98 1 1 19. TD [mm] 10 1 10 0 10 1 10 *delivery direction (right = clockwise / left = anticlockwise) Note: Recommended drives and further information, see p.. Bowl with FDA-certification on demand. Feeding technology 01

Feeding bowls BB-R F 0 C TH H S R ØTD A L A Radius helix BB10-R BB1-R BB0-SR BB-R BB0-R BB-R BB0-R BB0-R Order no. Right * 091 09 09 09 099 0981 098 098 Left * 09 09 09 098 0980 098 098 098 Right - FDA 00910 008 0091 0090 0089 009 009 0099 Left - FDA 00911 008 00918 0091 0080 009 0098 0090 Dimen. Units S [mm] 8 10 18 0 0 R [mm].. 8 9 1. H [mm] 8 10 1 0 0 C [mm] 1... 9 10. F [mm] 9 10. 1 19.8. 9. L [mm] 10 1 0 0 0 0 TH [mm] 8 98 1 1 19. TD [mm] 10 1 10 0 10 1 10 *delivery direction (right = clockwise / left = anticlockwise) Note: Recommended drives and further information, see p.. Bowl with FDA-certification on demand. Feeding technology 01

Feeding technology 01

Feeding bowls TS TS0-1 TS0-1 8 Feeding technology 01

Technical data TS Stepped bowls TS0-1 TS0-1 Order no. Right * 11008 01 ** Left * 11008 018 ** Fixation Centrical Centrical Dimensions Units ø A [mm] ø B [mm] 8. 18 C [mm] 0 0 D [mm] 110 1 E [mm] 0 F [mm] 8 ø G [mm] 90 0 H [mm] 10 1 K [mm] Technical data Weight. kg 1.0 kg Load volume ***.00 L 10 L Recommended drive BF WV10-1 WV01-1 WV0-1 *delivery direction (right = clockwise / left = anticlockwise) **an adapter plate is necessary for fixation, see page ***theoretical value, current load volume largely dependent on the component to be fed and the specific project conditions Note: Material: Aluminium. Conical spring washer see page 80. Feeding technology 01 9

Accessory feeding bowls BB / TS Centrical fixation 1 Spring washer set H B D A Counterweight A S R D 8 0 Feeding technology 01

Technical data BB / TS Centrical fixation Notation 1 Bowl feeder drive Feeding bowls Spring washer set Spring washer set BB0 BB BB0 BB BB0 BB0 Order no. uncoated 01 0100 0100 0100 0100 0100 coated 011 01088 01088 01088 01088 01088 Dimensions Units A [mm] 0 80 80 80 100 10 B [mm] 0.... 1.. D --- M8 M10 M10 M10 M1 M1 H [mm] 9.8... 91 11. Counterweight BB0 BB BB0 BB BB0 BB0 Order no. 00 010 01 010 00 01 Dimensions Units A [mm] 1 1 1 1 0 0 R [mm] 10. 1 10 18. 1.. S [ ] 0 0 0 0 0 D [mm] 8 10 10 10 1 Weight [g] 0 11 190 0 0 0 Note: Material: 1.01 Feeding technology 01 81

1 1 NVB NVD 8 Feeding technology 01

Refilling units Refilling units Refillable vibratory hopper NVB 8 Vibratory hopper NVD 8 Accessory NVD 8 Conveyor belt hopper NBB 88 Accessory NBB 90 Feeding technology 01 8

Refilling units NVB Refillable vibratoy hopper NVB A E C B F D 8 Feeding technology 01

Technical data NVB Refillable vibratoy hopper NVB0/0. NVB1/1.0 NVB/.0 Order no. 0 V / 0 Hz 0980 0980 098089 11 V / 0 Hz 099 091 09 Dimensions Units A [mm] 90 100 11 B [mm] 0 8 9 C [mm] 1 1 0 D [mm] 8 8 E [mm] 8 100 1 F [mm] 8 1 Technical data Filling volume 0. l 1.0 l.0 l Maximum filling weight 1. kg. kg 9.0 kg Voltage 0/11 VAC 0/11 VAC 0/11 VAC Surface roughness R a < 0.8 μm < 0.8 μm < 0.8 μm Surface roughness R z <. μm <. μm <. μm Frequency 0/0 Hz 0/0 Hz 0/0 Hz Protection class IP IP IP Vibrator frequency (electric) in Hz 0/0 0/0 0/0 Vibrations mécaniques par min 000/00 000/00 000/00 Feeding technology 01 8

Refilling units NVD Vibratory hopper unit NVD Vibratory hopper unit NVD 8 Feeding technology 01

Technical data NVD Vibratory hopper unit NVD/ NVD/10 NVD/1 NVD/0 NVD/0 Order no. 0 V / 0 Hz 09 09 09 09 09 11 V / 0 Hz 09 098 099 090 09 Dimensions Units A [mm] 00 0 0 0 0 B [mm] 0 0 0 0 0 C [mm] 98 1 1 1 1 D [mm] 11 11 11 11 E [mm] 11 1 1 1 1 F [mm] 1 1 1 1 1 G [mm] 9 0 9 999. H [mm] 11 11 19 1 10 I [mm] 9 1 1 19 19 K [mm] 1 9 1 1 9. L [mm] 9 8 M [mm] 180 18. 0 9. N --- M M M M M O --- M10 M10 M10 M10 M10 P [mm] 8 8 8 8 8 S [mm] --- 191 191 191 191 Unit X L [mm] on request on request on request on request on request Technical data Filling volume.0 l 10.0 l 1.0 l 0.0 l 0.0 l Filling weigth kg 0 kg 0 kg 0 kg 0 kg Power input 0. A 0.8 A 0.8 A 0.8 A 0.8 A Voltage 0 VAC 0 VAC 0 VAC 0 VAC 0 VAC Frequency 0/0 Hz 0/0 Hz 0/0 Hz 0/0 Hz 0/0 Hz Surface roughness R a < 0.8 μm < 0.8 μm < 0.8 μm < 0.8 μm < 0.8 μm Surface roughness R z <. μm <. μm <. μm <. μm <. μm Protection class IP IP IP IP IP Vibrator frequency [Vibrations per min] 000/ 00 000/ 00 000/ 00 000/ 00 000/ 00 Accessory refilling units Type NVD/ NVD/10 NVD/1 NVD/0 NVD/0 Order no. Item No. 1 Base plate 1100 11008 11008 11008 11008 Item No. Joint clamp ** 0011980 0011980 0011980 0011980 0011980 Item No. Column ** on request on request on request on request on request Item No. Column support ** 1100998 1100998 1100998 1100998 1100998 - - - = nonexistent * material: 1.01 ** needed x for type NVD Note: Refer to p. 98 for appropriate control devices. Feeding technology 01 8

Refilling units NBB Conveyor belt hopper NBB10-0 H K C O B A N D G F M E Dashed illustration: Heavy load design 8 8 Feeding technology 01

Technical data NBB Conveyor belt hopper NBB10 NBB0 NBB0 Order no. VDC Standard 111811 1091 118880 0 V / 0 Hz Standard 11 11 1180 0 V / 0 Hz Heavy load 111 100100 10100 11 V / 0 Hz Standard 108 10188 008 11 V / 0 Hz Heavy load 10191 109990 108 Dimensions Units A [mm] B [mm] 00 0 C [mm] 0 D [mm] 0 0 0 E [mm] 00 00 00 F [mm] 11 11 11 G [mm] 10 10 10 H [mm] max. max. max. K --- M8 M8 M8 M [mm] 180 180 180 N [mm] O [mm] 1 9 09 Technical data Filling volume 10 l 0 l 0 l Filling weight standard 0 kg 0 kg 0 kg Filling weight heavy load 0 kg 0 kg 0 kg Belt speed 0.1 m/min 0.1 m/min 0.1 m/min Weight device 19.0 kg 0.10 kg 9.00 kg Power output: VDC Standard W W W 0 VAC Standard W W W 0 VAC Heavy load 11 W 11 W 11 W 11 VAC Standard W W W 11 VAC Heavy load 99 W 99 W 99 W Power input: VDC Standard 0. A 0. A 0. A 0 VAC Standard 0.1 A 0.1 A 0.1 A 0 VAC Heavy load 0. A 0. A 0. A 11 VAC Standard 0. A 0. A 0. A 11 VAC Heavy load 0.9 A 0.9 A 0.9 A Protection class standard IP IP IP Protection class heavy load IP IP IP Note: Outlet refer to page 90. Feeding technology 01 89

Accessory refilling units NBB Outlet shaft C A B Outlet slide F E D 9 0 Feeding technology 01

Technical data NBB Outlet NBB10 NBB0 NBB0 Order no. Outlet shaft 0199 11 0008 Outlet slide 088 088 088 Dimensions Units A [mm] 18 18 18 B [mm] 9 C [mm] 18 98 8 D [mm] 10 10 10 E [mm] 00 00 00 F [ ] Note: Material: 1.01. Feeding technology 01 91

Accessory refilling units NBB Conveyor belt hopper stand E O N K F D A C B L G H M Assembly layout NBB 1 9 Feeding technology 01

Technical data NBB Item No. 1 - Single column support* Order no. 1100998 Dimensions Units A [mm] 10 B [mm] 8 C [mm] 11 K [mm] M [mm] O [mm] Item No. - Intermediate plate** Order no. 0011 Dimensions Units D [mm] 10 E [mm] 0 F [mm] 180 G [mm] 9 N [mm] 10 Item No. - Round*** 0 mm grading Order no. on request Dimensions Units L [mm] H [mm] 10-00 *material:.1, required twice ** material: 1.00.0, galvanically galvanises and blue chromated ***material: 1.0 Feeding technology 01 9

Accessory refilling units NBB Extension plate* B C A E D 9 Feeding technology 01

Technical data NBB Extension plate* Order no. 001 Dimensions Units A [mm] 100 B [mm] 00 C [mm] 0 D [mm] 1 E [mm] 8 *for fixation of 1 x Refilling unit NBB10-0 with support Note: Other dimensions on demand. Material 1.00.0, galvanically galvanises and blue chromated. Feeding technology 01 9

1 1 Control device Smart Box Phase angle controller IRG1-S Motor controller IRG1-MS Fixation 1-IRG Fixation -IRG Control device SIGA 9 Zuführtechnik 01

Control devices Control devices Phase angle controller IRG1-S 98 Motor controller IRG1-MS 100 Control device Smart Box 10 Accessoires IRG / Smart Box 10 Control device SIGA 10 Zuführtechnik 01 9

Control devices IRG Phase angle controller IRG1-S B C D E A 9 8 Feeding technology 01

Technical data IRG Phase angle controller IRG1-S Order no. 0 V 0010 11 V 0010 Dimensions Units A [mm] 1 B [mm] 80 C [mm] 0 D [mm] E [mm] Technical data Input electric voltage 0 V (11 V) Output electric voltage 0 V (11 V) Output electric current A AC Vibrator Conveyoer belt hopper NBB --- Vibratory hopper unit NVD 0 VAC (11 VAC) 0-8 VAC (0-100 VAC) External target value preset 0-0 ma (DC) 0-10 VDC Smooth start 0 - s Operating mode display LED Alternation operation Continous operation Input of optical coupler invertable Temperature range 0 - C Supply voltage compensatio Plug connector / pins M8 / Degree of protection IP = available - - - = nonexistent Feeding technology 01 99

Control devices IRG Motor controller IRG1-MS B C A E D 1 0 0 Feeding technology 01

Technical data IRG Motor controller IRG1-MS Order no. 0 V / 11 V 091018 Dimensions Units A [mm] 1 B [mm] 80 C [mm] 1. D [mm] 10 E [mm] Technical data Supply voltage 0/11 VAC Frequency 0/0 Hz Enable input VDC Motor output 0/11 VAC; A Vibrator Conveyor belt hopper NBB --- Vibratory hopper NVD Degree of protection IP Feeding technology 01 101

Control devices Smart Box Control device Smart Box B C D E A Connection options for the Smart Box Additionally may be connected to the Smart Box: - Blast air to 00 ma - System Release (invertible) - Error message (lamp) 1 0 Feeding technology 01

Technical data Smart Box Control device Smart Box Order no. 0 V / 11 V 018 Dimensions Units A [mm] 1 B [mm] 80 C [mm] 1. D [mm] 10 E [mm] Technical data Output electric voltage V Conveyor outputs x M8 / Sensor inputs x M8 / Max. current sensor 1 A Blast air valve M8 / Max. current blast air valve 00 ma Multi-function output M8 / System release M8 / Short-circuit proof Operating mode display LED Temperature range 0 - C Degree of protection IP Operating voltage 11/0 VAC Fuses MA / 0 V Control input + VDC = available Feeding technology 01 10

1 0 Feeding technology 01 A B E C B C A F D A A B D F E C B A C 1 1 1 1 IRG / Smart Box Accessory control devices Alternative assembly variants Fixation of control device IRG

Technical data IRG / Smart Box Alternative assembly variants for accessory IRG Notation 1 Control device Fixation-1-IRG Base plate Fixation for 1-IRG -IRG Order no. 001 001 Dimensions Units A [mm] 0 0 B [mm] 0 0 C [mm] D [mm] E [mm] 98 18 F [mm] Technical data Capability of fixation (quantity of control devices) 1 Note: Material stainless steel. Feeding technology 01 10

Control devices SIGA Contol device SIGA B C D E A 1 0 Feeding technology 01

Technical data SIGA Contol device SIGA Order no. 0 V 01901 11 V 000 Dimensions Units A [mm] 00 B [mm] 100 C [mm] 80 D [mm] E [mm] 0 Technical data Input voltage 0 VAC Frequency 0/0 Hz Output voltage 0...00 VAC Output current 0.0... A Output frequency...00 Hz Degree of protection IP Fuses x. A (F) Ambient temperature 0 0 C Feeding technology 01 10

1 8 9 1 Base frame Base plate Fixation for control device IRG Pendulum sensor Bowl cover Block body for linear feeder Linear feeder HLF 8 Sensor fixation buffer control 9 Fork light barrier 1 0 8 Zuführtechnik 01

Afag-Chrome-Line feeding components Afag-Chrome-Line feeding components Feeding station 110 Base plate 11 Base frame GG 11 Buffer control 11 Light barrier GL 118 Level control device 10 Collecting container 1 Bowl cover 1 Zuführtechnik 01 109

Afag-Chrome-Line feeding components ACL Feeding station 10 9 8 1 1 1 0 Feeding technology 01

Technical data ACL Item No. Notation Page 1 Linear feeder and accessory 8 Bowl feeder drive and accessory Feeding bowl and accessory 0 Refilling unit and accessory 8 Control device and accessory 9 Afag-Chrome-Line feeding components Base plate 11 Base frame 11 8 Buffer control 11 9 Level control device 10 10 Bowl cover 1 Feeding technology 01 111

Afag-Chrome-Line feeding components Base plate A B 1 1 Feeding technology 01

Technical data Base plate for bowl feeder KLF, HLF0 KLF1, HLF1 KLF, HLF AxB [mm x mm] AxB [mm x mm] AxB [mm x mm] BF10 10 x 10 --- --- BF1, WV11 00 x 0 --- --- BF0, WV01 0 x 80 --- --- BF 10 x 0 00 x 0 --- BF0, WV01, WV10 0 x 0 0 x 00 --- BF --- 00 x 0 --- BF0 --- 0 x 90 --- BF0 --- 0 x 00 --- WV00 --- 0 x 80 90 x 90 Note: Recommended base plate dimensions for combination of linear feeder with bowl feeder; Material: 1.00.0, blue chromated; Thickness 0 mm; customer-specific hole pattern for application; other dimensions on request. - - - = nonexistent = existent Note: Other dimensions on demand. Material 1.00.0, galvanically galvanises and blue chromated. Feeding technology 01 11

Afag-Chrome-Line feeding components GG Base frame GG A E C G D B F H 1 1 Feeding technology 01

Technical data GG Base frame 00 x 00 00 x 00 00 x 00 00 x 00 Dimensions Units A [mm] 80 0 0 0 B [mm] 00 00 00 00 C [mm] 0 0 0 0 D [mm] 100 E [mm] 10 0 10 90 F [mm] 1 1 1 8 G - M10 M10 M10 M10 H - M1 M1 M1 M1 Base frame 00 x 00 800 x 800 900 x 900 1000 x 1000 Dimensions Units A [mm] 0 0 80 90 B [mm] 00 00 00 00 C [mm] 0 0 0 0 D [mm] 100 100 100 100 E [mm] 90 10 0 810 F [mm] 8 8 8 8 G - M10 M10 M10 M10 H - M1 M1 M1 M1 Feeding technology 01 11

D Afag-Chrome-Line feeding components ACL Buffer control C 8 B A G D C 8 H 1 x F E 1 1 Feeding technology 01

Technical data ACL Buffer control Order no. with clamp foot Item No. 1 Clamp foot 11109 --- Item No. Fork --- 00118 Item No. Cross-type clamp 010 010 Item No. Clamping cylinder 11811 11811 Item No. Retainer plate 109 109 Item No. Fork light barrier * ) * ) Item No. Round 0 mm grading on request on request Item No. 8 Round 0 mm grading on request on request with fork Dimensions Units A [mm] 8. B [mm] 9 C [mm] 0 D [mm] 1 E [mm] x F [mm]. G [mm] 90 00 H [mm] 90 00 *refer to page 119 Note: Ordering of the items depending on application; Connection cable not in scope of delivery. Feeding technology 01 11

Afag-Chrome-Line feeding components ACL Fork light barrier 1 1 8 Feeding technology 01

Technical data ACL Fork light barrier GL0 GL0 GL0 GL80 GL10 Order no. 00 10908 008 0080 1011 Dimensions Units X [mm] 0 0 0 80 10 A [mm] 10 10 10 10 1 B [mm] 0 C [mm] 0 Technical data Voltage 10 V DC 10 V DC 10 V DC 10 V DC 10 V DC Output pnp/no/nc pnp/no/nc pnp/npn pnp/npn pnp/npn Power rating Short-circuit resistant 00 ma 00 ma 00 ma 00 ma 00 ma Current consumption < 0 ma < 0 ma < ma < 0 ma < ma Voltage drop <.8 V <.8 V <.8 V <.8 V <.8 V Control frequency khz khz khz khz khz Resolution 0. mm 0. mm 0. mm 0. mm 0.8 mm Control hysteresis < 0. mm < 0. mm < 0. mm < 0. mm < 0. mm Reproducability 0.0 mm 0.0 mm 0.0 mm 0.0 mm 0.0 mm Ambient temperature -10 +0 C -10 +0 C -10 +0 C -10 +0 C -10 +0 C Fault light safety 10 klux 80 klux 80 klux 80 klux 0 klux Max. voltage for insulating power 00 V 00 V 00 V 00 V 00 V Degree of protection IP IP IP IP IP Cabinet material * ) ** ) * ) * ) * ) Connector three pins three pins three pins three pins three pins Fitting of the connector M8 M8 M8 M8 M8 *zinc pressure die cast (black-chromium-plated) **aluminium (black-oxidized electr.) Note: Light barriers with other fork opening dimension on demand; Connection cable not in scope of delivery. Feeding technology 01 119

Afag-Chrome-Line feeding components ACL Sensor fixation fuel level meter inductive H D G 8 F C E A 1 B Holder for fill level reflection detector D H G E A 1 B 1 0 Feeding technology 01

Technical data ACL Track level control Inductive Reflection Order no. Item No. 1 Clamp foot 11109 11109 Item No. Cross-type clamp 010 010 Item No. Clamping cylinder --- 11811 Item No. Retainer plate --- 091 Item No. Pendulum-queries 00909 --- Item No. Sensor (Omron) --- 00111 Item No. Round 0 mm grading --- on request Item No. 8 Round 0 mm grading on request on request Dimensions Units A [mm].. B [mm] C [mm] 00 --- D [mm] 1 1 E [mm] 0 0 F [mm] --- G [mm] 90 00 90 00 H [mm] 0 90 00 Technical data Measurement distance --- max. 00 mm Nominal operating range mm --- Temperature range - - + - - + Plug connector / pins M8 / M8 / Degree of protection IP IP Range of Voltage rating 10 0 V DC 1 VDC Max. Load circuit 00 ma 0 ma --- = nonexistent Note: Ordering of the items depending on application; Connection cable not in scope of delivery. Feeding technology 01 11

Afag-Chrome-Line feeding components ACL Collecting container large D E C F B H 1 A Collecting container small C E D H F B A 1 1 Feeding technology 01

Technical data ACL Collecting container large small Order no. Item No. 1 Clamp foot 11109 11109 Item No. Hopper holding device 00118 001199 Item No. Clamping arm 0010 0010 Item No. Hopper * 1180 1181 Item No. Round 0 mm grading on request on request Item No. Fork 00118 00118 Dimensions Units A [mm] B [mm].. C [mm] 10 8 D [mm] 10 8 E [mm] 0 F [mm] 0 0 H [mm] 90 00 90 00 *Hopper colour: red, other colours on request Note: The individual parts are to be ordered in line with the required size of hopper and length of tube. Feeding technology 01 1

Afag-Chrome-Line feeding components ACL Bowl cover C 1 B D A Lateral rotatable Hinged 1 Feeding technology 01

Technical data ACL Bowl cover Notation 1 Bowl cover Prop for cover Mounting plate Bowl feeder drive Feeding bowl Bowl cover BB1 BB0 BB BB0 BB BB0 BB0 Lateral rotatable 0899 088 08 08 099 0810 088 Hinged 0909 089 081 09 08018 08 08 Order no. Prop for cover * 090 0918 0918 --- --- --- --- Dimensions Units A [mm] 19 0 0.. 0. 8 B [mm] D +. D +. D +. D +. D +. D +. D +. C [mm] 1. 0 1 1. 1. D [mm] 1-1 18-1 11-11 - 1-1 - 1 1-1 *for BB0 to BB0 included in delivery --- = nonexistent Note: Material cover: macrolon limpid; Mounting plates see page 8. Feeding technology 01 1

1 1 Aflex Flipconveyor 1 Feeding technology 01

Flex Feeding Flex Feeding Aflex 18 Flipconveyor 10 Feeding technology 01 1

Flex Feeding Aflex aflex 00 A B D L N C O F K E H I M G 1 8 Feeding technology 01

Technical data Aflex Type aflex 10 aflex 00 Order no. with vibrationplate POM white 0 0 with vibrationplate POM black 08 0 with vibrationplate PTFE white 09 0 with backlight and vibrationplate POM white 00 0 with backlight and vibrationplate PTFE white 01 0 with textured vibrationplate 0 08 Dimensions Units A [mm] 10 9 B [mm] 10 0 C [mm] 10 0 D [mm] 100 1 E [mm]. 90. F [mm] 1 1 G [mm] ø18 ø18 H [mm] ø1 ø1 I [mm] K [mm].. L [mm] M [mm] 89 11. N [mm] 10 O [mm] 1 Technical data Max. part size < 10 mm < 0 mm Max. part weight < g < 0 g Control voltage V V Total current [max] 10 A 10 A Recommended pre-fuse C10A / 10A GL T C10A / 10A GL T Relative activation duration of the actuators < 1% < 1% Ambient temperature 0 80 C 0 80 C Weight kg. kg Standard interface Multi I/O, Ethernet Multi I/O, Ethernet Optional interface Profibus Profibus Integrated background lighting optional optional Protection type IP IP Feeding technology 01 19

Flex Feeding Flipconveyor Flipconveyor A F D E B C G 1 0 Feeding technology 01

Technical data Flipconveyor Type Flipconveyor 00 Flipconveyor00 Order no. Flipconveyor with black belt 09 01 Flipconveyor with white belt 00 0 Dimensions Units A [mm] 100 100 B [mm] 8 8 C [mm] 00 00 D [mm] E [mm] 10 10 F [mm] 8 8 G [mm] Technical data Max. part size < 0 mm < 0 mm Max. part weight < g < g Control voltage V V Total current [max] A A Recommended pre-fuse (for individual protection) BA BA Ambient temperature 0 0 C 0 0 C Weight. kg. kg Interface belt and brushed motor Faulhaber adapter (optional) Faulhaber adapter (optional) Interface Flip motor controller Serial (RS-) Serial (RS-) Integrated belt lighting optional optional Protection type IP IP Accessory Frame flipzone Flipconveyor 00 Flipconveyor 00 Order no. 0 0 Feeding technology 01 11

1 1 Laboratory instrument QRG1 Handheld demagnetizer HEM 1 Zuführtechnik 01

Diagnostics and training Diagnostics and training Workshop and training 1 Laboratory instrument QRG1 1 Handheld demagnetizer HEM 18 8 Zuführtechnik 01 1

Afag workshops for practitioners d m c F M (t) Vibration Technology Basics Our success is based on vibration technology. As technology leader in the field of vibration conveying technology, we bring the necessary knowledge for the application into your company. Use of Afag Products Correct handling of our products enables maximum performance and precision. Due to training in their assembly, you can use the possibilities of our equipment optimally for your application. 1 Feeding technology 01

8 Troubleshooting and Tips & Tricks for Practitioners You can benefit from our many years of experience in the design and manufacture of part feeders. We show you how you sustainably optimise your systems from the installation to the operation. Please visit our website for further information. www. Feeding technology 01 1

Laboratory instrument QRG Laboratory instrument QRG1 A B E D F C 1 Feeding technology 01

Technical data QRG Laboratory instrument QRG1 Order no. 110 / 10 / 0 / 0 V 090 Dimensions Units A [mm] B [mm] 1 C [mm] D [mm] 8. E [mm] F [mm] 8 Technical data Power section: Output voltage 0 10 / 0 0 V Input voltage 110/10/0/0 V Frequency 0/0 Hz Output current 8 A Output frequency 00 Hz Measurement section: Actual values sensor 10/100/00 mv/g Sensor supply 1 ma Frequency 00 Hz Deflection 0 0 mm Measuring range 0. 10 g Measuring error 1. % Accessory Accelerometer Order no. 099 Note: on controller selection: Controller PSG1 usable only with HLF-P. Feeding technology 01 1

Handheld demagnetizer HEM Handheld demagnetizer HEM B A C 1 8 Feeding technology 01

Technical data HEM Handheld demagnetizer HEM Order no. 0 V / 0 Hz 090 11 V / 0 Hz 0 Dimensions Units A [mm]. B [mm] 0 C [mm] 90 8 Technical data Weight Power Protection class 0. kg 1 VA IP0 Feeding technology 01 19

Project-specific components FB / LSH Conveyor Belts FB 1. Fast and efficient transport and separation. Flexible motor arrangement and easy installation. Available with brake/clutch unit Conveyor Belts FB Noise reduction cover LSH 1. Reduces the noise level by up to 0 db(a). Protects against soiling. Also available with plastic coating Noise reduction cover LSH 1 0 Feeding technology 01

Solutions to untangle springs TF / FEG Drum feeder 1. Disentanglement and separation of springs and other bulk materials. Stand-alone operation with integrated control. Custom expandability of the base unit to a variety of solutions 9 Drum feeder Spring feeder device FEG 1. Disentanglement and feeding of flat spiral springs. Simple operation via small controller. Reduces assembly costs Spring feeder device FEG Feeding technology 01 11

Drum feeder TF Drum feeder B A D C 1 Feeding technology 01

Technical data TF Drum feeder Order no. 0 V / 0 Hz on request Dimensions Units A [mm] 0 B [mm] C [mm] 10 D [mm]. 9 Technical data Voltage supply 0 VAC Power rating 00 VA Power fuse 10 A Rated current A Internal voltage supply VDC,. A Supply pressure bar / 8 psi Pneumatic connection Festo KSS Drum diameter 00 Temperature range 0-0 C Supply voltage compensation Degree of protection IP = available Feeding technology 01 1