(!)Due to Microsoft's end of support for Internet Explorer 11 on 15/06/2022, this site does not support the recommended environment.
Instead, please kindly use other browsers like Google Chrome, Microsoft Edge or Mozilla Firefox.

  • Notice of End of Sales for Economy Series Pneumatic Equipment Category. More information.

In-Line Type Vacuum Ejector ZU□A Series (Part Numbers)

In-Line Type Vacuum Ejector ZU□A Series
  • Volume Discount

An ejector manufactured by SMC.
[Features]
• Vacuum port and supply port are located collinear to each other to facilitate easy piping.
· Lightweight, as the body is made of resin.

(i)Caution

  • Please refer to the catalog for specification details.
  • The product images may be representative images only. Please refer to the manufacturer's catalog for shape details.

PDF

Japanese Only

Vacuum Ejector In-Line Type ZU Series Specifications

ZU05□/ZU07□ external appearance

ZU05□/ZU07□ external appearance

ZU Series circuit drawing

ZU Series circuit drawing

Ejector Specifications *1

TypeModelNozzle Diameter
mm
Maximum Vacuum Pressure
kPa *2
Maximum Suction Flow Rate
L/min (ANR) *2
Air Consumption
L/min (ANR) *2
Weight
g
High Vacuum TypeZU05S0.5-847146.5
ZU07S0.7-8410297.0
High Flow Rate TypeZU05L0.5-4812146.5
ZU07L0.7-4816297.0
  1. *1 The values indicating characteristics are representative values and may vary depending on the atmospheric pressure (weather, altitude, etc.)
  2. *2 Value at a supply pressure of 0.45 MPa

Structural Drawing

ZU Series structural drawing

ZU Series structural drawing

Drawing

 

(Unit: mm)

 

ZU05S, ZU05L dimensional drawing

ZU05S, ZU05L dimensional drawing

ZU07S, ZU07L dimensional drawing

ZU07S, ZU07L dimensional drawing

Exhaust Characteristics / Flow Rate Characteristics (Representative Values)*

ZU05S

ZU05S exhaust characteristics (left) / flow rate characteristics (right) graph

ZU05S exhaust characteristics (left) / flow rate characteristics (right) graph

ZU05L

ZU05L exhaust characteristics (left) / flow rate characteristics (right) graph

ZU05L exhaust characteristics (left) / flow rate characteristics (right) graph

ZU07S

ZU07S exhaust characteristics (left) / flow rate characteristics (right) graph

ZU07S exhaust characteristics (left) / flow rate characteristics (right) graph

ZU07L

ZU07L exhaust characteristics (left) / flow rate characteristics (right) graph

ZU07L exhaust characteristics (left) / flow rate characteristics (right) graph

*Flow rate characteristics are with a supply pressure of 0.45 MPa.

How to Read Flow Rate Characteristics Graphs

The flow rate characteristics show the relationship between the vacuum pressure and the suction flow rate of the ejector. It also shows that as the suction flow rate changes, so too does the vacuum pressure. Generally, the relationship shown is at the standard working pressure for the ejector. In the diagram, Pmax denotes the maximum vacuum pressure, and Qmax denotes the maximum suction flow rate. These values are the values listed as the specifications in the manufacturer's catalog and elsewhere. See below for information on how to change the vacuum pressure.

The flow rate characteristics show the relationship between the vacuum pressure and the suction flow rate of the ejector. It also shows that as the suction flow rate changes, so too does the vacuum pressure.
Generally, the relationship shown is at the standard working pressure for the ejector.
In the diagram, Pmax denotes the maximum vacuum pressure, and Qmax denotes the maximum suction flow rate. These values are the values listed as the specifications in the manufacturer's catalog and elsewhere.
See below for information on how to change the vacuum pressure.

  1. 1. When the ejector suction port is closed and sealed, the suction flow rate is 0 and the vacuum pressure is at its maximum (Pmax).
  2. 2. As the suction port is gradually opened and air begins to flow (leak), the suction flow rate increases and the vacuum pressure decreases. (State of P1 and Q1)
  3. 3. As the suction port opens further and on to the fully opened state, the suction flow rate reaches its maximum value (Qmax), and the vacuum pressure becomes close to 0 (atmospheric pressure). Thus, as the suction flow rate changes, so too does the vacuum pressure. In other words, if there is no leak in the vacuum port, the vacuum pressure will be at its highest level. As the leakage amount increases, the vacuum pressure decreases and becomes close to 0 when the leakage amount and the maximum suction flow rate become equal. Be aware that when suctioning a workpiece that is breathable or has a leak, the vacuum pressure will not be very high.

Notes

Mounting

  • Be careful not to apply an excessive load or generate moments to the ejector body via the connection port or by mounting.
  • Refer to the manufacturer's catalog for selection and sizing.

Cautions for Handling One-Touch Fittings

One-Touch Fitting Tube Connection and Disconnection

  • Tube attachment
  1. 1. Cut the tube at a right-angle. The tube must not have any cuts on its periphery. Use tube cutters TK-1, 2 and 3 when cutting tubes. Do not use pliers, wire cutters, scissors, etc. This could result in an uneven cut or cause the tube to become flattened. This in turn might make connecting the tube difficult or result in air leakage or the tube coming out after being connected. Be sure to leave a little extra length when cutting the tube.
  2. 2. Hold the tube and push it in slowly until completely inserted.
  3. 3. After inserting the tube, pull it lightly to make sure it does not become detached. Failure to make sure the tube is fully inserted may cause air to leak or the tube to come out.
  • Tube removal
  1. 1. Push-in the release bushing with sufficient force. At the same time, evenly press in the collar.
  2. 2. Keep the release bushing held in so that it does not retract and then pull out the tube. If the release bushing is not being pushed in sufficiently, the tube may become too tightly gripped and make it difficult to pull out.
  3. 3. Detached tubes can be reused by cutting off the section that was previously gripped. Reusing the tube without cutting off the gripped section may lead to air leakage and make it difficult to remove the tube.

Other notes

  • *See the manufacturer's catalog for information not detailed above.
  • *The images are for representative model numbers only.
Part Number
ZU03SA
ZU04SA
ZU05LA
ZU05SA
ZU07LA
ZU07SA
Part NumberStandard Unit PriceMinimum order quantityVolume DiscountDays to ShipUltimate Vacuum
(kPa)
Air Consumption Flow Rate
(l/min)
Vacuum Port Connecting Port Shape Vacuum Port One-Touch Fitting Size Air Supply Port Connecting Port Shape Air Supply Port One-Touch Fitting Size Suction Flow
(l/min)
Nozzle Dia. Overall Length B
(mm)

-

1 Piece(s) Quote -3.7One-Touch CouplingØ4One-Touch CouplingØ41.80.3mm47

SGD 27.90

1 Piece(s)Available 23 Day(s) -7.4One-Touch CouplingØ4One-Touch CouplingØ43.20.4mm47

SGD 27.88

1 Piece(s)Available 32 Day(s) -4814One-Touch CouplingØ6One-Touch CouplingØ6130.5mm52

SGD 27.88

1 Piece(s)Available 32 Day(s) -9014One-Touch CouplingØ6One-Touch CouplingØ670.5mm52

SGD 30.92

1 Piece(s)Available 32 Day(s) -4828One-Touch CouplingØ6One-Touch CouplingØ6160.7mm59

SGD 30.92

1 Piece(s)Available 31 Day(s) -9028One-Touch CouplingØ6One-Touch CouplingØ6110.7mm59

Loading...

  1. 1

Basic Information

Type Pipe Type Additional Function Not Provided Application Manifolds
Operating Pressure Range(MPa) 0.1::0.6 Operating Temp. Range(°C) -5::50

Tech Support