Vacuum Ejector with Solid State Timer Incorporates solid state timer function for release valve control (Timer setting with PLC is unnecessary) Timing Chart OFF Suction command ON Suction output OFF ON OFF Release output ON Timer period 2 to 2, ms Note) When power is supplied, release output is performed once for the time period only. Allows sharing of switch/valve power supply, and single line for suction signal (Valve wiring is unnecessary) Timer can be easily adjusted without programming (Reduction of the load of PLC) ZA ZX ZR ZM ZMA ZQ ZH ZU ZL ZY ZF ZP SP ZCUK AMJ AMV AEP HEP Related Equipment 19 Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com
Vacuum Ejector With Solid State Timer How to Order Release flow rate adjusting needle Nil L Without lock nut With lock nut 1 3 Nozzle diameter Note) Note) 7 1 13 1. mm.7 mm 1. mm 1.3 mm 1. mm Body type For single unit Common SUP for manifold Individual SUP for manifold Note) When the product is used for the manifold, the exhaust air of the operating ejector may enter the vacuum port (V) of the non-operating ejector and be released if there are an operating and non-operating ejector. In order to reduce the exhaust intrusion, consider using a special double check valve (-X17). Standard supply pressure M.3 MPa S.4 MPa H. MPa Refer to Table (1) for selection of standard supply pressure and nozzle diameter. Switch model T14 1 point setting, No analog output available 3 turns, NPN output T4 1 point setting, No analog output available 3 turns, PNP output Solenoid valve rated voltage 24 VDC Valve K With air supply valve, Vacuum release valve Thread type Nil Rc T NPTF F G G thread The thread ridge shape is compatible with the G thread standard (JIS B23), but other shapes are not conforming to ISO163 and ISO1179. Electrical entry of vacuum switch (Connector type) C CL CN Lead wire length.6 m Lead wire length 3 m Without lead wire Table (1) Combination of Nozzle Diameter and Standard Supply Pressure Standard supply pressure (MPa) Nozzle diameter M (.3) S (.4) H (.). mm.7 mm 1. mm 1.3 mm 1. mm Table (2) Lead wire with 4-wire connector P22-6-1 (.6 m) P22-6-2 (3 m) 11 Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com
Vacuum Ejector With Solid State Timer Connection Example T14 VL T4 VL VS VS Max. 4. ma Internal circuit Max. 4. ma Internal circuit Brown Black White 3 V Max. ma Max. Blue Brown ma Max. White Black Blue 24 VDC 24 VDC VL: Pilot valve for release VS: Pilot valve for supply Model Nozzle diameter (mm)..7 1. 1.3.7 1. 1.3 1.3 1. Vacuum Ejector Specifications Fluid Max. operating pressure Max. vacuum pressure Supply pressure range Operating temperature range Suction filter Valve Specifications How to operate Main valve Effective area (Cv factor) Operating pressure range Electrical entry Max. operating frequency Voltage Air.7 MPa 4 kpa.2 to. MPa to C Polyethylene sintered metal (3 μm) Pilot type Poppet 3 mm 2 (.17).2 to.6 MPa Plug connector Hz 24 VDC Vacuum Switch with Timer Specifications (for controlling solenoid valve) Power source Sensor switch output Part of timer Timing Chart Wiring Model ZMA ZMA7 ZMA1 ZMA13 ZMA7 ZMA1 ZMA13 ZMA13 ZMA1 Suction command Suction output H H H H M M M S S OFF ON OFF ON Standard supply pressure H M S. MPa.3 MPa.4 MPa Operating voltage Consumption current per one unit Number of output Output Setting trimmer Operation indicator light Maximum suction flow rate l/min (ANR) 1 3 66 23 3 44 37 4 l/min (ANR) 17 3 6 9 33 6 11 Diffuser construction Double diffuser Single diffuser OFF Release output ON Timer period 2 to 2,ms Note) When power is supplied, release output is performed once for the time period only. Brown Black White Blue Temperature characteristics Hysteresis Timer period Setting trimmer Temperature characteristics DC (+) Suction command Switch output DC ( ) 24 VDC ±1% 1.1 W (at switch output OFF) 1 NPN/PNP open collector 3 turns Red LED lighting ±3% FS or less 3% FS or less (fixed) 2 to 2, ms 3 turns ±3% FS or less ZA ZX ZR ZM ZMA ZQ ZH ZU ZL ZY ZF ZP SP ZCUK AMJ AMV AEP HEP Related Equipment Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com 111
Construction: ZMA 1 -K L-E Pilot valve for supply Pilot valve for release Air pressure supply port Vacuum port Component Parts No. 1 2 3 4 6 Description Body Valve cover Adapter plate Cover Tension bolt Release flow rate adjusting needle Material Aluminum die-casted Resin Resin Zinc die-casted Stainless steel/polyacetal Brass Note ZMA-HCB Electroless nickel plated Replacement Parts No. 7 9 1 11 12 Description Filter cover assembly Diffuser assembly Suction filter Silencer assembly Pilot valve Poppet valve assembly 13 Vacuum switch with timer 14 Check valve 1 Connector assembly Material Polyethylene NBR Part no. ZMA-FCB- ZMA - ZM-SF ZM-SA SY114-LOZ ZMA-PV ZM-CV 112 Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com
Vacuum Ejector With Solid State Timer /, Standard Supply Pressure: H. MPa ZMA H 9 7 6 4 3 2 1 9 7 6 4 3 2 1 9..1.2.3.4..6 ZMA7 H..1.2.3.4..6 ZMA1 H 4 3 2 1 4 3 2 1 9 l/min (ANR) l/min (ANR) l/min (ANR) l/min (ANR) 9 7 6 4 3 2 1 1 1 Flow rate l/min (ANR) 9 7 6 4 3 2 1 1 1 2 2 3 Flow rate l/min (ANR) 9 ZA ZX ZR ZM ZMA ZQ ZH ZU ZL ZY ZF ZP SP ZCUK AMJ AMV AEP HEP Related Equipment 7 6 4 3 7 6 4 3 l/min (ANR) l/min (ANR) 7 6 4 3 2 2 2 1 1 1..1.2.3.4..6 1 2 3 4 Flow rate l/min (ANR) Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com 113
/, Standard Supply Pressure: H. MPa ZMA13 H 9 13 9 7 6 4 3 2 12 1 9 7 6 4 3 l/min (ANR) l/min (ANR) 7 6 4 3 2 1 1 1..1.2.3.4..6 1 2 3 4 6 7 Flow rate l/min (ANR) /, Standard Supply Pressure: S.4 MPa ZMA13 S 9 1 16 9 7 6 4 3 14 12 1 6 l/min (ANR) l/min (ANR) 7 6 4 3 2 1 4 2 2 1..1.2.3.4..6 1 1 2 2 3 3 4 Flow rate l/min (ANR) ZMA1 S 9 1 16 9 7 6 4 3 2 1 14 12 1 6 4 2 l/min (ANR) l/min (ANR) 7 6 4 3 2 1 114..1.2.3.4..6 1 1 2 2 3 3 4 4 Flow rate l/min (ANR) Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com
Vacuum Ejector With Solid State Timer /, Standard Supply Pressure: M.3 MPa 9 9 9 How to Read Graph 7 6 4 3 2 1 9 7 6 4 3 2 1 9..1.2.3.4..6..1.2.3.4..6 7 6 4 3 2 1 13 12 1 9 7 6 4 3 1 1 l/min (ANR) l/min (ANR) l/min (ANR) l/min (ANR) 7 6 4 3 2 1 1 1 2 2 9 7 6 4 3 2 1 1 1 2 2 3 3 4 9 Flow characteristics are expressed in ejector vacuum pressure and suction flow. If suction flow rate changes, a change in vacuum pressure will also be expressed. Normally this relationship is expressed in ejector standard supply pressure. In graph, Pmax is max. vacuum pressure and Qmax is max. suction flow. The values are specified according to catalog use. Changes in vacuum pressure are expressed in the order below. 1. When ejector suction port is covered and made airtight, suction flow is and vacuum pressure is at maximum value (Pmax). 2. When suction port is opened gradually, air can flow through (air leakage), suction flow increases, but vacuum pressure decreases (condition P1 and Q1). 3. When suction port is opened further, suction flow moves to maximum value (Qmax), but vacuum pressure is near (atmospheric pressure). When vacuum port (vacuum piping) has no leakage, vacuum pressure becomes maximum, and vacuum pressure decreases as leakage increases. When leakage value is the same as max. suction flow, vacuum pressure is near. When ventilative or leaky work must be adsorbed, please note that vacuum pressure will not be high. ZA ZX ZR ZM ZMA ZQ ZH ZU ZL ZY ZF ZP SP ZCUK AMJ AMV AEP HEP Related Equipment 16 7 6 4 3 2 14 12 1 6 4 l/min (ANR) l/min (ANR) 7 6 4 3 2 1 2 1..1.2.3.4..6 1 1 2 2 3 3 4 4 Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com 11
Dimensions Supply Pilot pressure exhaust port (PE) 111 Vacuum 13 (ZMA 11S-K-T14C) A: Release flow rate adjusting needle with lock nut Pilot valve for supply S: switch trimmer T: Release period adjustment trimmer 1 (Needle fully open) Pilot valve for release Release flow rate adjusting needle Pilot pressure exhaust port (PE) M through 3 x 1/ (Rc, NPTF, G) Air pressure supply port (P) A Vacuum port (V) 1 62 97.. 26 3 97. 112 1. 2 3 13 2 x ø4. Mounting hole 13 Vacuum port (V) 116 Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com
Vacuum Ejector With Solid State Timer Manifold Specifications: Series ZZMA By viewing the front side of vacuum port (V), stations are counted starting from station 1 on the left side. ZZMA 6 Number of stations 1 1 station 1 1 stations (max.) Thread type Nil Rc T NPTF F G G thread The thread ridge shape is compatible with the G thread standard (JIS B 23), but other shapes are not conforming to ISO163 and ISO1179. Manifold Specifications Manifold style Common air pressure supply port (P) Individual air pressure supply port (P) Common exhaust port Position of common exhaust port (EXH) Max. number of stations Silencer The common air pressure supply port (P) and individual air pressure supply port (P) can be mounted together. Right and left sides are viewed from the front side of vacuum port (V). Maximum Ejector Stations (Max. operable nos. simultaneously) Ejector model Manifold model ZZMA Stations 6 R L ZZMA Stations 6B ZZMA Stations 4 R L ZZMA Stations 4B 6 R ZMA3 ZMA4 1 1 1 1 Effective area of external silencer is 16 mm 2. Cv value:. ZMA73 ZMA74 How to Order Ejector Manifold R 1 1 Common exhaust port(exh) and silencer location R Right Side L Left Side B Both Sides Note) Right and left side are viewed from the front side of vacuum port (V). Common exhaust port (EXH) Size 4 1/2 6 3/4 S Silencer dedicated for ZZMA (ZZM-SA) Without exhaust port (Compatible with X111) ZMA13 ZMA14 Common air pressure supply port (P) location Nil Both Sides R Right Side L Left Side Right and left side are viewed from the front side of vacuum port (V). Stacking 1/4 (Rc, NPTF, G) 1/ (Rc, NPTF, G) 1/2, 3/4 (Rc, NPTF, G) Right side/left side/both sides Max.1 stations ZZM-SA (With bolts) ZMA133 ZMA134 4 6 4 6 ZMA13 ZMA14 3 3 ZA ZX ZR ZM ZMA ZQ ZH ZU ZL ZY ZF ZP SP ZCUK AMJ AMV AEP HEP Related Equipment The asterisk ( ) indicates the ejector model no. below the manifold base no. Prefix it to the vacuum unit part numbers to be mounted. When it is not added, products are shipped separately. Example) Manifold model no.: ZZMA4-SR (1 pc.) Ejector model no. : ZMA73H-K-T14C (4 pcs.) Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com 117
Manifold ZZMA Number of ejectors Common EXH port Port position 4 x ø.6 Mounting hole A: Release flow rate adjusting needle with lock nut 1 (Needle fully open) Pitch 1/ (Rc, NPTF, G) Individual air pressure supply port (P) 1/4 (Rc, NPTF, G) Common air pressure supply port (P) 2 x M x. Common air pressure exhaust port (PE) A Left Right 2 x Rc1/ Vacuum port (V) 1/2, 3/4 (Rc, NPTF, G) Common exhaust port (EXH) L L1 L2 L3 Stations 1 2 ±1. 4 ±1. 6 ±1. 2 44 ±1. 6 ±1. 72 ±1. 3 6 ±1. 72 ±1. ±1. 4 76 ±1. ±1. 14 ±1. 92 ±1. 14 ±1. 12 ±1. 6 1 ±2. 12 ±2. 136 ±2. 7 124 ±2. 136 ±2. 12 ±2. 14 ±2. 12 ±2. 16 ±2. 9 16 ±2. 16 ±2. 14 ±2. (mm) 1 172 ±2. 14 ±2. 2 ±2. 11 Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com
Vacuum Ejector With Solid State Timer Manifold/With Silencer ZZMA Number of ejectors <Components> Manifold with Silencer Dedicated for Manifold S Position of silencer ZA 4 x ø.6 Mounting hole A: Release flow rate adjusting needle with lock nut ZX ZR ZM 1 (Needle fully open) ZMA ZQ Pitch P = 16 ZH ZU ZL 1/4 (Rc, NPTF, G) Common air pressure supply port (P) ZY 1/ (Rc, NPTF, G) Individual air pressure supply port (P) 2 x M x. Common air pressure exhaust port (PE) ZF ZP SP A ZCUK AMJ AMV AEP HEP 2 x Rc1/ (1/-27NPTF, G1/) Vacuum port (V) Related Equipment Silencer dedicated for manifold L L1 L2 L3 Stations 1 2 ±1. 4 ±1. 72 ±1. 2 44 ±1. 6 ±1. ±1. 3 6 ±1. 72 ±1. 14 ±1. 4 76 ±1. ±1. 12 ±1. 92 ±1. 14 ±1. 136 ±1. 6 1 ±2. 12 ±2. 12 ±2. 7 124 ±2. 136 ±2. 16 ±2. 14 ±2. 12 ±2. 14 ±2. 9 16 ±2. 16 ±2. 2 ±2. (mm) 1 172 ±2. 14 ±2. 216 ±2. Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com 119
Specific Product Precautions Be sure to read before handling. Refer to front matters 3 and 39 for Safety Instructions and pages 44 to 46 for Vacuum Equipment Precautions. Warning Mounting 1. Do not drop or bump. Do not drop, bump or apply excessive impact (1, m/s 2 ) when handling. Even if the switch body is not damaged, the switch may suffer internal damage that will lead to malfunction. 2. Hold the product from the body side when handling. The tensile strength of the power cord is 49 N, and pulling it with a greater force can cause failure. 3. When handling the product, never move or loosen the switch assembly or the switch assembly mounting screws. Warning Wiring 1. Do not allow repeated bending or stretching forces to be applied to lead wires. Wiring arrangements in which repeated bending stress or stretching force is applied to the lead wires can cause broken wires. Warning Pressure Source 1. switches There will be no change in performance if a pressure of approximately. MPa is applied momentarily (when releasing vacuum), but care should be taken that pressures of.2 MPa or more are not applied on a regular basis. Warning Operating Environment 1. The product cannot be used in a strong magnetic field. 12 Courtesy of Steven Engineering, Inc.-23 Ryan Way, South San Francisco, CA 94-637-Main Office: (6) -92-Outside Local Area: () 2-92-www.stevenengineering.com