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CCHN is a trusted U.S. registered company in industrial automation & controls, CCHN's goal is helping saving your money by bypassing all kinds of local dealers/agents in buying industrial automation products from Chinese manufacturers directly. You will be enjoyed to get free tech support on how to choose, how to wire, how to commissioning with CCHN professional engineers. Shopping for your automation systems on CCHN one-stop online store now. The price on the website only for sample reference. for Mass order,please send the enquiry to us.

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CCHN Industry
 
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CCHN Industry

CCHN is a trusted U.S. registered company in industrial automation & controls, CCHN's goal is helping saving your money by bypassing all kinds of local dealers/agents in buying industrial automation products from Chinese manufacturers directly. You will be enjoyed to get free tech support on how to choose, how to wire, how to commissioning with CCHN professional engineers. Shopping for your automation systems on CCHN one-stop online store now. The price on the website only for sample reference. for Mass order,please send the enquiry to us.

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Foam cutting is a device for processing materials in the chemical industry such as foam and sponges. It mainly uses the high

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Pneumatic Rotary Actuator, Rack and Pinion, Double acting
 
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Pneumatic Rotary Actuator, Rack and Pinion, Double acting


$164.50
Rack-and-pinion pneumatic rotary actuators (double acting) are available in a variety of styles and sizes, providing double o
SKU: CHN-RTC-HRQ
Free Shipping Worldwide
Delivery date: 6-12 days

Pneumatic rotary actuators with rack-and-pinion structure and a higher-precision working platform are for sale. This series of rotary actuators comes with a number of optional sizes along with two modes of buffer. With these characteristics, this type of pneumatic rotary actuator will surely make a greatly useful part in your pneumatic system.

Product features

  1. Higher manufacturing precision of working platform: The manufacturing precision of working platform is high, facilitating installation and is of precise orientation. The working platform has a through hole in the center, and pipes can be located and passed through the hole.
  2. Double cylinder structure brings about double output.
  3. Two modes of buffer are offered for selection, including adjustment bolt buffer and internal shock absorber with the latter even better.
  4. Rack and pinion design makes for stable functioning.
  5. The device comes with integral magnetic switch slots
  6. Three types of size are selectable which are mini-sized (2, 3 & 7), middle-sized (10, 20, 30 & 50) and large-sized (70, 100 & 200) rotary cylinders.
  7. Simple installation: Guide holes are designed on both sides of the cylinder body (10~200) or undersurface (2~7).

Specification

ModelCHN-RTC-HRQ
Type2371020305070100200
Acting typeDouble rack and pinion (Double acting)
FluidAir (to be filtered by 40 um filter element)
Operating pressureWith adjustable bolt0.15~0.7MPa (22~100psi) (1.5~7.0bar)
With internal shock absorber-0.15~0.7MPa (22~100psi) (1.5~7.0bar)
Proof pressure1.2MPa (175psi) (12.0bar)
Temperature-20~70℃
Angle adjustment range0~190°0~190°
Repeatable
 precision
With adjustable bolt0.2°
With internal shock absorber-0.05°
Theoretic moment (Nm) (0.5MPa)0.20.330.631.12.22.857.51122
Cushion typeWith adjustable boltRubber bumper
With internal shock absorber-Shock absorber
Port sizeEnd portsM5 × 0.81/8″ [Note1]
Side portsM5 × 0.8
Weight120g175g270g535g940g1260g2060g2890g4100g7650g
[Note1]: PT thread, G thread and NPT thread are available.
HRQ series are all attached with magnet.
    

Inner structure and material of major parts
Inner-structure-of-HRQ-pneumatic-rotary-actuator

NO.ItemMaterial
1Adjustable boltCarbon steel
2Hexagon nutCarbon steel
3Seal washerCarbon steel & Rubber
4Front coverAluminum Alloy
5BodyAluminum Alloy
6Hexagon socket head set boltCarbon steel
7TableAluminum Alloy
8Hexagon socket head set boltCarbon steel
9Guide pin/flat keyCarbon steel
10Deep-groove bearingSubassembly
11Bearing retainerAluminum Alloy
12Deep-groove bearing/Needle bearingSubassembly
13Back coverAluminum Alloy
14Steel ballStainless steel
15Piston sealNBR
16Wear ringWare resistent material
17MagnetRare earths
18RackStainless steel/Carbon steel
19PinionChrome molybdenum steel
20O-ringNBR
21BumperNBR
22O-ringNBR
23O-ringNBR
24Hexagon screwStainless steel
25Shock absorberSubassembly

Dimensions (unit: mm)
Dimension-of-pneumatic-rotary-actuator-HRQ-2-3-7

Type/ItemAACADBBACCACBEEAEBECGJJAJBKKAKCLLALBLCPPA
2766483230281810M5×0.812129.5463.537M4×0.77.53.5M4×0.74354.5M5×0.812.5
38270836.534.530.520.510M5×0.81215.510.557.54.543M5×0.88.54.5M4×0.74404.5M5×0.815.5
794.579.58434134.52311.5M6×1.01518.51267.54.550M5×0.88.54.5M5×0.85505M5×0.818.5

 

Type/ItemPBQQAQBRRASSATTAUUAVVAVBVCWWAWBXXAXBYYAYB
210M5×0.84614 (H9)2.529 (h9)5.529.5 (h9)45 (H9)1.5M3×0.53.53418.5M3×0.55.5212 (H9)210.52 (H9)224
312M5×0.847.517 (H9)2.533 (h9)5.534 (h9)46 (H9)1.5M3×0.53.53823M3×0.55.5252 (H9)212.52 (H9)228
714M5×0.84920 (H9)339 (h9)6.540 (h9)4.57 (H9)1.5M4×0.74.54530M4×0.76.5293 (H9)314.53 (H9)332

 Dimension-of-pneumatic-rotary-actuator-HRQ-10~50

Type/ItemA (With internal shock absorber)A (With adjustment bolt)ACADBBACCACBEEA  (With internal shock absorber)EA (With adjustment bolt)
10123112929.55054473413M10×1.03120
20169145.3117116569543717M12×1.05228.3
30178.5154.512711.57074574017M12×1.051.527.5
50212185.9152158084664620M14×1.56033.9

 

Type/ItemEBECGJJAJBJCKKAKCPPAPBQQAQBRRASSA
1020.5145116.56027M8×1.25126.5M5×0.834.528M5×0.84.52920(H94.545 (h9)8
2027.5169148.57634M10×1.5158.5M5×0.84730M5×0.863028(H96.560 (h9)10
302918.59148.58437M10×1.5158.51/8″5032M5×0.86.53432(H9565 (h9)10
503822101810.510050M12×1.751810.51/8″6338M5×0.8103835 (H9)5.575 (h9)12

 

Type/ItemTTAUUAVVAWWAWBXXAXBYYAYBYC
1046 (h9)4.515 (H9)3M5×0.88M5×0.88323 (H9)3.5163 (H9)3.55640
2061 (h9)6.517 (H9)2.5M6×1.08M6×1.010434 (H9)4.521.54 (H9)4.57450
3067 (h9)6.522 (H9)3M6×1.08M6×1.010484 (H9)5244 (H9)4.58058
5077 (h9)7.526 (H9)3M8×1.258M8×1.2512555 (H9)627.55 (H9)5.59268

Dimension-of-pneumatic-rotary-actuator-HRQ-70~200

Type/ItemA (With internal shock absorber)A (With adjustment bolt)ACADBBABCCCACBCDEEA (With adjustment bolt)
70206.8244921792888475532236M20×1.536.8
100225.726311717102999586592742M20×1.536.7
200279.5316.512724120117113106743257M27×1.539.5

 

Type/ItemEA (With internal shock absorber)EBGJJAJBJCKKAKCPPAPBQQARRASSA
7074421617.51211057M12×1.751810.51/8″7544M5×0.82546 (H9)588 (h9)12.5
10074501917.51213066M12×1.751810.51/8″8550M5×0.82956 (H9)698 (h9)14.5
20076.560242012.515080M16×2.025141/8″10362.5M5×0.83664 (H9)9116 (h9)16.5

 

Type/ItemTTAUUAVVAWWAWBXXAXBYYAYBYCZZA
7090 (h9)922 (H9)3.5M8×1.2510M8×1.2512.5675 (H9)5.533.55 (H9)3.5110805 (H9)3.5
100100 (h9)1224 (H9)3.5M8×1.2510M8×1.2514.5776 (H9)6.538.56 (H9)4.51201006 (H9)4.5
200118 (h9)1532 (H9)5.5M12×1.7513M12×1.7516.5908 (H9)1/8″458 (H9)4.51401108 (H9)6.5

Tips: How to select a pneumatic rotary actuator

  1. Determine the following working conditions of a pneumatic rotary actuator according to the actual situation:
    1.1 Rotation angle θ: The actual rotation angle must be within the maximum allowed range of rotation angle of cylinder.
    1.2 Rotation time t: The rotation time must be within the maximum allowed range of rotation time of cylinder.Calculation-of-necessary-torque-and-moment-of-pneumatic-rotary-actuator
    1.3 Installation position of cylinder: Allow enough installation space, so as to ensure leaving adequate space for rotation of cylinder and workpieces.
    1.4 Determination of loading mass and loading shape.
  2. Calculation of necessary torque needed when loading rotation (T(N.m))
    Calculate the necessary moment required for loading rotation according to the formula below, and combine with the torque diagram of actual effect, to choose the pneumatic rotary actuator with suitable torque output.
    2.1 Calculation method of moment of inertia in different conditions
    DiagramDescriptionCalculation formula
    of moment of inertia
    Rotation radiusDiagramDescriptionCalculation formula
    of moment of inertia
    Rotation radius
     Disk of pneumatic rotary actuatord: Diameter (m)
    m: Mass (kg)
     Formula of moment of inertia of pneumatic rotary actuator Rotation radius of pneumatic rotary actuator Rectangle sheet of pneumatic rotary actuator 1a: Sheet length (m)
    b: Length of
        side (m)
    m: Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 6Rotation radius of pneumatic rotary actuator 6 
    Note: no special installation directionNote: no special installation direction
     Classified disk of pneumatic rotary actuatord1: Diameter (m)
    d2:Diameter (m)
    m1: d1 Mass (kg)
    m2: d2 Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 1 Rotation radius of pneumatic rotary actuator 1 Rectangle sheet of pneumatic rotary actuator 2a: Sheet length (m)
    m: Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 7 Rotation radius of pneumatic rotary actuator 7
    Note: Compared with d2, disregard d1 if d1 is extremely tinyNote: no special installation direction
     Disk of pneumatic rotary actuator 1d: Diameter (m)
    m: Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 2 Rotation radius of pneumatic rotary actuator 2 Rectangle sheet of pneumatic rotary actuator 3a: Sheet length (m)
    m: Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 8 Rotation radius of pneumatic rotary actuator 8
    Note: no special installation directionNote:
    1. horizontal installation.
    2. pay attention to the change of movement time in case of vertical installation.
     Sphere of pneumatic rotary actuatorr: Radius (m)
    m: Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 3 Rotation radius of pneumatic rotary actuator 3 Rectangle sheet of pneumatic rotary actuator 4a: Sheet length (m)
    b: Distance between the rotation axis
    and the gravity center of loading (m)
    m: Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 9 Rotation radius of pneumatic rotary actuator 9
    Note: no special installation directionNote: the cuboids are the same.
     Thin stick of pneumatic rotary actuatora1: Sheet length (m)
    a2: Sheet length (m)
    m1: a1 Mass (kg)
    m2: a2 Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 4 Rotation radius of pneumatic rotary actuator 4 Gear of pneumatic rotary actuatora: Tooth number of gear
    b: Tooth number of loading gear
     Formula of moment of inertia pneumatic rotary actuator 10 
    Note:
    1. horizontal installation.
    2. pay attention to the change of
        movement time in case of vertical
        installation.
     Concentrated load of pneumatic rotary actuatora1: Vertical distance between the rotation axis and the concentrated loading (m)
    a2: Length of arm (m)
    m1: Mass of concentrated loading (kg)
    m2: Mass of arm (kg)
     Formula of moment of inertia pneumatic rotary actuator 11 
     Rectangle sheet of pneumatic rotary actuatora1: Sheet length (m)
    a2: Sheet length (m)
    b: Length of side (m)
    m1: a1 Mass (kg)
    m2: a2 Mass (kg)
     Formula of moment of inertia pneumatic rotary actuator 5 Rotation radius of pneumatic rotary actuator 5Note:
    1. horizontal installation.
    2. compared with m, disregard if m is extremely tiny.
    3. calculate K according to the shape of concentrated loading row by row. For example, when the loading is spheroid, K=2r²/5
    Note:
    1. horizontal installation.
    2. pay attention to the change of
        movement time in case of vertical
        installation.
  3. Calculation of maximum movement energy E(max, J):
    Calculate the maximum movement energy according to the formula below, and make sure that the maximum movement energy is within allowed energy range of the chosen pneumatic cylinder as excessively large movement energy would lead to damage of inner parts, please choose rotation cylinder attached with shock absorber when the movement energy is fairly large.
    Calculation of maximum movement energy of pneumatic rotary  actuator
  4. Calculation of loading rate
    Calculate the loading rate according to the formula below, and the loading rate must not be more than 1.
    Calculation of loading rate of pneumatic rotary actuator
  5. Determination method
    It could be used only when the chosen pneumatic rotary actuator must meet the requirements of article 2, 3 and 4 simultaneously.