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CKQGD/CKQPD/CLKQGD/CLKQPD Series Pin Clamp Cylinder (CKQGDB50-158RBHZ)

CKQGD/CKQPD/CLKQGD/CLKQPD Series Pin Clamp Cylinder CKQGDB50-158RBHZ

Adjustable height for clamping a workpiece.
[Features]
· Possible to mount on 4 surfaces, and 2 auto switches on the same surface, for improved flexibility of system design.
· For improved workability, direct mounting is possible, no mounting hardware required.
· 55 types of guide pins.
· Fine adjustment of the clamping height is possible by selecting the type with shims.
· Optional locking mechanism can be selected.
· The D-P4DW auto switch is also mountable.
· 2 switches can be mounted on the same surface.

(i)Caution

  • See the catalog for specification details.
  • Product images may be representative images. Refer to the manufacturer's catalog for shape details.

PDF

Part Number

Configured Part Number is shown.

CKQGDB50-158RBHZ

Model Number Notation

Model Number Notation

Model Number Notation

CKQGD/CKQPD/CLKQGD/CLKQPD Series Pin Clamp Cylinder Specifications

Pin Clamp Cylinder external appearance

Pin Clamp Cylinder external appearance

*The images for this series are representative images.

D series external appearance (mounting tap: 4 × M10 × 1.5 / Pin hole: 2 × ø8 [diameter 8 mm] H7)

D series external appearance (mounting tap: 4 × M10 × 1.5 / Pin hole: 2 × ø8 [diameter 8 mm] H7)

Taps parallel: mounting hole (tap, pin hole) arrangement

Taps parallel: mounting hole (tap, pin hole) arrangement

Positioning and clamping can be done at the same time

Positioning and clamping can be done at the same time

Basic Specifications

ActionDouble acting
Bore size50 mm
FluidAir
Min. operating pressureCKQ□: 0.1 MPaCLKQ□ (with lock): 0.15 MPa*
Max. operating pressureGuide pin diameterø12.5 to 13.0 (guide pin diameter 12.5 to 13.0 mm)0.7 MPa
ø14.5 to 30.0 (guide pin diameter 14.5 to 30.0 mm)1.0 MPa
Proof pressureGuide pin diameterø12.5 to 13.0 (guide pin diameter 12.5 to 13.0 mm)1.0 MPa
ø14.5 to 30.0 (guide pin diameter 14.5 to 30.0 mm)1.5 MPa
Ambient and fluid temperature-10°C to 60℃ (no freezing)
CushionNone
LubricationNon-lube
Piston speed (clamp speed)50 to 150 mm/sec
Port size (cylinder port)1/4 (Rc, NPT, G)

*Minimum operating pressure is 0.2 MPa when cylinder part and locking part use the same piping.

Lock Specifications

Locking actionSpring locking (exhaust locking)
Unlocking pressure0.2 MPa or more
Locking pressure0.05 MPa or less
Locking directionLock at extended direction (clamp holding)
Port size (lock release port)1/8 (Rc, NPT, G)
Holding force (maximum static load)982 N

Clamping Force

 

(Unit: N)

 

ModelGuide pin diameterOperating pressure MPa
0.20.30.40.50.60.70.80.91.0
CKQG
CKQP
ø12.5 to 13.0 (guide pin diameter 12.5 to 13.0 mm)164.9329.8494.7659.6824.5989.4---
ø14.5 to 30.0 (guide pin diameter 14.5 to 30.0 mm)164.9329.8494.7659.6824.5989.41,154.31,319.21,484.1
CLKQG
CLKQP
ø12.5 to 13.0 (guide pin diameter 12.5 to 13.0 mm)82.4247.3412.2577.1742.0906.9---
ø14.5 to 30.0 (guide pin diameter 14.5 to 30.0 mm)82.4247.3412.2577.1742.0906.91,071.8*11,236.7*11,401.6*1

*1 The lock holding force of the CLKQ□ is 982 N. Design the circuit such that the lock holding force is taken into consideration when the operating pressure exceeds 0.75 MPa. The operating pressure should not be greater than the lock holding force as it may cause wearing out and/or damage of the locking part and shorten the lock life and may lead to possible failure if applied with a load larger than the lock holding force.
*2 It takes approximately 0.3 seconds for the cylinder to operate to generate clamping force from an unclamping state (when no speed controller is installed). Design the circuit taking into consideration the time before the clamping force is generated.
*3 Determine the clamping force according to the strength of the workpiece. It can be damaged if the clamping force is too large.

Weight

 

(unit: kg)

 

ModelC(L)KQGD
C(L)KQPD
Guide pin diameter
(mm)
Without lockWith lock
LOWHIGHLOWHIGH
ø12.5 to 13.0 (guide pin diameter 12.5 to 13.0 mm)1.621.792.142.3
ø14.5 to 15.0 (guide pin diameter 14.5 to 15.0 mm)1.621.792.142.3
ø15.5 to 16.0 (guide pin diameter 15.5 to 16.0 mm)1.631.792.142.31
ø17.5 to 18.0 (guide pin diameter 17.5 to 18.0 mm)1.671.842.182.36
ø19.5 to 20.0 (guide pin diameter 19.5 to 20.0 mm)1.681.852.192.37
ø24.5 to 25.0 (guide pin diameter 24.5 to 25.0 mm)1.741.942.252.46
ø29.5 to 30.0 (guide pin diameter 29.5 to 30.0 mm)1.781.982.292.5
 

CKQGDA50/CKQPDA50 external dimensional drawing

  • *Refer to the manufacturer's catalog for the positional relationship of the mounting surface and port.
  • *The figures below show the CKQGDA50-□RAHZ.

 

(Unit: mm)

 

CKQGDA50-□RAHZ dimensional drawing

CKQGDA50-□RAHZ dimensional drawing

 

(Unit: mm)

 

LOW type with shims dimensional drawing

LOW type with shims dimensional drawing

 

(Unit: mm)

 

HIGH type with shims dimensional drawing

HIGH type with shims dimensional drawing

 

(Unit: mm)

 

LOW type dimensional drawing

LOW type dimensional drawing

 

(Unit: mm)

 

Round type guide pin shape dimensional drawing

Round type guide pin shape dimensional drawing

 

(Unit: mm)

 

Diamond type guide pin shape dimensional drawing (ø17.5 [guide pin diameter 17.5 mm] or more)

Diamond type guide pin shape dimensional drawing (ø17.5 [guide pin diameter 17.5 mm] or more)

 

(Unit: mm)

 

Hole diameter of workpieceCøDødEGHKLSRWøZ
LOW
Type
HIGH
Type
LOW
Type
HIGH
Type
ø13 (hole diameter of workpiece 13 mm)9ø30 (diameter 30 mm)ø12.5 (diameter 12.5 mm)≈ 1033Without shims
60 ±0.05
Without shims
90 ±0.05
6204.5234.54-ø36 (diameter 36 mm)
ø12.7 (diameter 12.7 mm)≒9
ø12.8 (diameter 12.8 mm)≒8
With shims
60
With shims
90
ø12.9 (diameter 12.9 mm)≒8
ø13.0 (diameter 13.0 mm)≒7
ø15 (hole diameter of workpiece 15 mm)11ø30 (diameter 30 mm)ø14.5 (diameter 14.5 mm)≒934Without shims
60 ±0.05
Without shims
90 ±0.05
7205.5235.55-ø36 (diameter 36 mm)
ø14.7 (diameter 14.7 mm)≒8
ø14.8 (diameter 14.8 mm)≒8
With shims
60
With shims
90
ø14.9 (diameter 14.9 mm)≒7
ø15.0 (diameter 15.0 mm)≒7
ø16 (hole diameter of workpiece 16 mm)11ø30 (diameter 30 mm)ø15.5 (diameter 15.5 mm)≈ 1034Without shims
60 ±0.05
Without shims
90 ±0.05
7205.5235.55.5-ø36 (diameter 36 mm)
ø15.7 (diameter 15.7 mm)≒9
ø15.8 (diameter 15.8 mm)≒8
With shims
60
With shims
90
ø15.9 (diameter 15.9 mm)≒8
ø16.0 (diameter 16.0 mm)≒7
ø18 (hole diameter of workpiece 18 mm)12ø35 (diameter 35 mm)ø17.5 (diameter 17.5 mm)≈ 1037Without shims
60 ±0.05
Without shims
90 ±0.05
7208.5238.566ø40 (diameter 40 mm)
ø17.7 (diameter 17.7 mm)≒9
ø17.8 (diameter 17.8 mm)≒8
With shims
60
With shims
90
ø17.9 (diameter 17.9 mm)≒8
ø18.0 (diameter 18.0 mm)≒7
ø20 (hole diameter of workpiece 20 mm)13ø35 (diameter 35 mm)ø19.5 (diameter 19.5 mm)≈ 1039Without shims
60 ±0.05
Without shims
90 ±0.05
8210.5240.577ø40 (diameter 40 mm)
ø19.7 (diameter 19.7 mm)≒9
ø19.8 (diameter 19.8 mm)≒8
With shims
60
With shims
90
ø19.9 (diameter 19.9 mm)≒8
ø20.0 (diameter 20.0 mm)≒7
ø25 (hole diameter of workpiece 25 mm)16ø40 (diameter 40 mm)ø24.5 (diameter 24.5 mm)≈ 1039Without shims
60 ±0.05
Without shims
90 ±0.05
8210.5240.59.57ø47 (diameter 47 mm)
ø24.7 (diameter 24.7 mm)≒9
ø24.8 (diameter 24.8 mm)≒8
With shims
60
With shims
90
ø24.9 (diameter 24.9 mm)≒8
ø25.0 (diameter 25.0 mm)≒7
ø30 (hole diameter of workpiece 30 mm)18ø40 (diameter 40 mm)ø29.5 (diameter 29.5 mm)≈ 1039Without shims
60 ±0.05
Without shims
90 ±0.05
8210.5240.5119ø47 (diameter 47 mm)
ø29.7 (diameter 29.7 mm)≒9
ø29.8 (diameter 29.8 mm)≒8
With shims
60
With shims
90
ø29.9 (diameter 29.9 mm)≒8
ø30.0 (diameter 30.0 mm)≒7
 

P: port thread type

  • Nil: Rc1/4
  • TN: NPT1/4
  • TF: G1/4

Precautions

Caution on Design

  • *There is a possibility of dangerous sudden action by cylinders if sliding parts of machinery are twisted due to external forces, etc.
    In such cases, human injury may occur; e.g. by catching hands or feet in the machinery, or damage to the machinery itself may occur. Therefore, the machine should be adjusted to operate smoothly and designed to avoid such dangers.
  • *A protective cover is recommended to minimize the risk of personal injury.
    If a stationary object and moving parts of a cylinder are in close proximity, personal injury may occur. Design the structure to avoid contact with the human body.
  • *Securely tighten all stationary parts and connected parts so that they will not become loose.
    Especially when a cylinder operates with high frequency or is installed where there is a lot of vibration, ensure that all parts remain secure.
  • *Design the equipment so that the maximum theoretical force is not applied to the cylinder.
    If the cylinder becomes damaged there is a danger of human injury and/or equipment damage.
  • *Select the mounting base by taking into consideration its rigidity because the cylinder applies a large amount of force.
    Otherwise there is a danger of human injury and/or equipment damage.
  • *Consider the possibility of a decrease in circuit pressure when power is turned off.
    If the cylinder is used for a clamping application there is a danger of the workpiece being released since the circuit pressure decreases when the power is turned off. Install safety equipment to prevent human injury and damage to machine and/or equipment. The same consideration should be given for hanging or lift applications to prevent dropping of a workpiece.
  • *Consider a possible loss of power source.
    Measures should be taken to protect against bodily injury and equipment damage in the event that there is a loss of power to equipment controlled by pneumatics, electricity or hydraulics.
  • *Consider emergency stops.
    Design so that human injury and/or damage to machinery and equipment will not be caused when machinery is stopped by a safety device under abnormal conditions, a power outage or a manual emergency stop.
  • *Consider the action when operation is restarted after an emergency stop or abnormal stop.
    Design the machinery so that human injury or equipment damage will not occur upon restart of operation. When the cylinder has to be reset at the starting position, install manual safety equipment.
  • *Intermediate stop
    In the case of the 3-position closed center of a valve, it is difficult to make a piston stop at the required position as accurately and precisely as with hydraulic pressure due to compressibility of air. Furthermore, since valves and cylinders, etc., are not guaranteed for zero air leakage, it may not be possible to hold a stopped position for an extended period of time. Contact the manufacturer if it is necessary to hold a stopped position for an extended period. Do not intermediately stop the CLKQ cylinder during a locking operation because it will shorten the life of the cylinder.

Other precautions

  • *Be sure to read the safety precautions and individual product precautions before use.
  • *The photos show representative examples of the series. This product's specifications may differ.
  • *See the manufacturer's catalog for product information other than the above.
Part Number
CKQGDB50-158RBHZ
Part NumberStandard Unit PriceMinimum order quantityVolume DiscountDays to ShipCylinder Dia.
(Ø)
Max. Pressure
(MPa)
Clamping Force
(kN)
Auto Switches Lead Wire Length
(m)
The number of the switches Specifications Clamp Side Lock Mounting surface position Port Screw Type Guide Pin Diameter Guide Pin Shape Clamp Arm Position Clamp Position Height Shim Connector type

-

1 Piece(s) Quote --0.66Without auto switch (built-in magnet)NoneNoneBuilt-in standard magnet typeWithout lockSame direction as port, 180° from portRcø15.8Round type-HIGH type (90 mm)Without shims-

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Basic Information

Operation Method Straight Advancing Stroke Stroke(mm) 10 Support Type Tap
Rod Tip Shape Others Rod Motion Double Acting Piece Rod Body Options No (Standard)
Operating Temperature Range(°C) -10::60

Please check the type/dimensions/specifications of the part CKQGDB50-158RBHZ in the CKQGD/CKQPD/CLKQGD/CLKQPD Series Pin Clamp Cylinder series.

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