China high quality Hydraulic Cylinder, Mill Type Design Cdh1 Cgh1 Csh1 Cdh2 Cgh2 Csh2 High Temperature and High Pressure, Metallurgical Cylinder vacuum pump ac

Product Description

 

 

Hydraulic cylinders, mill type CDH

  • Rexroth standard
  • Series H1
  • Component series 3X
  • Nominal pressure 250 bar
  • Piston Ø 40 … 320 mm
  • Piston rod Ø 22 … 220 mm
  • Stroke length up to 6000 m
  • Ordering code

    01

    02

    03

     

    04

     

    05

     

    06

    07

    08

     

    09

    10

    11

    12

    13

    14

    15

    16

    CD

    H1

     

    /

     

    /

     

    /

     

    A

    3X

    /

                   

    01

    Single rod cylinder

    CD

    02

    Series

    H1

    Types of mounting

    03

    Swivel eye at cylinder base

    MP31)

    Self-aligning clevis at cylinder base

    MP5

    Round flange at the cylinder head

    MF3

    Round flange at the cylinder base

    MF4

    Trunnion

    MT42)

    Foot mounting

    MS2

    04

    Piston Ø (ØAL) 40 … 320 mm

    05

    Piston rod Ø (ØMM) 22 … 220 mm

    06

    Stroke length in mm3)

    Design principle

    07

    Head and base flanged

    A

    08

    Component series 30 … 39 (30 … 39: unchanged installation and connection dimensions)

    3X

    Line connection / version

    09

    According to ISO 1179-1 (pipe thread ISO 228-1)

    B

    According to ISO 9974-1 (metric thread ISO 261)

    M

    Flange connection according to ISO 6162-2 tab. 2 type 1 (≙ SAE 6000 PSI)

    D4; 9)

    Flange connection according to ISO 6164 tab. 2

    H4)

    according to ISO 1179-1 (pipe thread ISO 228-1) with flat pipe flange

    C31)

    For directional and high-response valves

    Subplate NG6

    P4; 5)

    Subplate NG10

    T4; 6)

    Subplate NG16

    U4; 7)

    Subplate NG25

    V4; 8)

    For SL and SV valves

    Subplate NG6

    A4; 5; 15)

    Subplate NG10

    E4; 6; 15)

    Subplate NG20

    L4; 7; 15)

    Subplate NG30

    N4; 8; 15)

    Line connection/position at cylinder head

    10

    View to piston rod30)

     

    1

    2

    3

    4

    Line connection/position at cylinder base

    11

    View to piston rod30)

     

    1

    234)

    3

    434)

    Piston rod design

    12

    Hard chromium-plated

    C

    Hardened and hard chromium-plated

    H12)

    Nickel-plated and hard chromium-plated

    N19)

    Piston rod end

    13

    Thread for swivel head CGAS

    A

    Thread for swivel head CGA, CGAK, plain clevis CSA

    G13)

    With mounted swivel head CGAS

    S

    With mounted swivel head CGA

    L13)

    With mounted swivel head CGAK

    M13)

    With mounted swivel head CSA

    N1)

    End position cushioning

    14

    Without end position cushioning

    U

    Both sides, self-adjusting

    D1)

    Both sides, adjustable

    E

    Seal design

    15

    For mineral oil HL, HLP and oil-in-water emulsion HFA

    Standard seal system

    M

    Standard seal system with guide rings

    L

    Reduced friction
    heavy industry

    R

    For mineral oil HL, HLP, oil-in-water emulsion HFA and water glycol HFC

    Standard seal system HFC

    G

    Servo quality/reduced friction

    T

    Chevron seal kits

    A

    For HDFR phosphate ester and HFDU polyol ester

    Servo quality/reduced friction

    S

    Standard seal system FKM

    V

    Chevron seal kits

    B

    Option

    16

    Additional options, fill fields for additional options

    Z

    Without additional options, do not fill fields for additional options

    W

    Additional options

         

    Fields for additional options

         

    17

    18

    19

    20

    21

    22

    23

    24

     

    Z

                     

    17

    Without inductive proximity switches

    W

    Inductive proximity switches without mating connector – separate order

    E37)

    18

    Without additional guide rings

    W

    Additional guide rings

    F10; 28)

    19

    Without measuring coupling

    W

    Measuring coupling, on both sides

    A

    20

    Standard conical grease nipple, DIN 71412 Form A

    W

    Spherical bearing, maintenance-free

    14; 35)

    Flanged grease nipple, DIN 3404 Form A

    B

    21

    Without piston rod extension

    W

    Piston rod extension “LY”, specify in mm in plain text

    Y

    22

    Priming class CP3

    W

    Painting class CP4

    B21)

    Painting class CP5

    L21)

    Painting class CP6

    U21)

    Painting class CP7

    E21)

    23

    Without oil filling

    W

    With oil filling

    F

    24

    Without test certificate

    W

    With acceptance test certificate 3.1 based on EN 15714

    C

    1) Only piston Ø 40 … 200 mm
    2) Trunnion position freely selectable. When ordering, always specify the “XV” dimensions in the plain text in mm
    3) For max. available stroke length see Technical data and for admissible stroke length (according to the kinking calculation) see Project plHangZhou information.
    4) Not possible with MF4
    5) Piston Ø 40 … 80 mm, only position 11, subplates only possible in combination with line connection “B” at the head
    6) Piston Ø 63 … 200 mm, only position 11, subplates only possible in combination with line connection “B” at the head
    7) Piston Ø 125 … 200 mm, only position 11, subplates only possible in combination with line connection “B” at the head
    8) Only piston Ø 160 … 200 mm, only position 11, subplates only possible in combination with line connection “B” at the head
    9) Only piston Ø 80 … 320 mm
    10) Seal designs A, B not possible; piston Ø 220 … 320 mm standard
    12) Only piston rod Ø 22 … 140 mm
    13) Not with piston Ø 320 mm
    14) Not possible with piston rod end “N”
    15) Subplates for SL and SV valves (isolator valves)
    Please note: Seal designs T, G, L, R, S and V are not designed for the static holding function!
    19) Only piston rod Ø 45 … 160 mm
    21) Specify RAL color in the plain text
    28) With seal design “L” standard
    30) All graphical representations in the data sheet show position 1
    31) With MS2, only position 11 is possible
    34) With MF4 and line connection B, M or C not possible
    35) Not possible with MP3
    37) Min. stroke length = 20 mm
     
      Order example:
      CDH1MP5/100/56/300A3X/B11CADMW
      CDH1MP5/100/56/300A3X/B11CADMZ EWABWWWW

Certification: CE, ISO9001
Pressure: High Pressure
Work Temperature: High Temperature
Customization:
Available

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rotary cylinder

Can rotary cylinders be customized for specific machinery and equipment?

Yes, rotary cylinders can be customized to meet the specific requirements of different machinery and equipment. Here’s a detailed explanation:

1. Mounting Options: Rotary cylinders can be customized with various mounting options to ensure seamless integration with specific machinery and equipment. Different mounting styles, such as flange mounts, foot mounts, or clevis mounts, can be provided to accommodate the mounting needs of the application.

2. Shaft Configurations: Rotary cylinders can be customized with different shaft configurations to suit specific machinery and equipment designs. The shaft can be extended or modified to match the required dimensions, keyways, or connections necessary for the intended application.

3. Stroke Length: The stroke length of rotary cylinders can be customized to meet the specific range of rotational motion required by the machinery or equipment. By adjusting the stroke length, the rotary cylinder can be tailored to provide the desired angular movement.

4. Sealing Options: Rotary cylinders can be customized with various sealing options to ensure compatibility with different operating environments. Different types of seals, such as nitrile, Viton®, or polyurethane seals, can be used based on factors like temperature, pressure, and the presence of corrosive or abrasive substances.

5. Special Features: Depending on the application requirements, rotary cylinders can be customized with special features. This may include the integration of position sensors, encoders, or limit switches to provide feedback and enhance control. Additionally, custom ports, fittings, or connections can be added to facilitate the integration of the cylinder into the specific machinery or equipment.

6. Material Selection: The materials used in the construction of rotary cylinders can be customized based on factors such as the operating environment, load requirements, or chemical compatibility. Custom material selection ensures the cylinder’s durability and performance in the specific machinery and equipment.

7. Performance Parameters: Rotary cylinders can be customized to meet specific performance parameters, such as torque output, rotational speed, or response time. By adjusting the internal design and components, the cylinder’s performance can be optimized for the particular machinery or equipment.

It’s important to collaborate with manufacturers or suppliers who specialize in customizing rotary cylinders for specific machinery and equipment. They can provide guidance and expertise in tailoring the cylinder to meet the precise requirements of the application.

rotary cylinder

Can rotary cylinders be applied in both mobile and stationary machinery?

Yes, rotary cylinders can be applied in both mobile and stationary machinery. Here’s a detailed explanation:

1. Mobile Machinery: Rotary cylinders find extensive use in mobile machinery, such as construction equipment, agricultural machinery, material handling equipment, and transportation vehicles. In these applications, rotary cylinders enable controlled rotational motion for various functions, including steering, lifting, tilting, opening and closing attachments, and actuating hydraulic brakes. The compact design and versatility of rotary cylinders make them well-suited for mobile machinery, where space and weight considerations are crucial.

2. Stationary Machinery: Rotary cylinders are also widely utilized in stationary machinery across various industries. They play a crucial role in applications such as industrial automation, manufacturing processes, packaging equipment, robotics, and machine tools. In stationary machinery, rotary cylinders provide controlled rotation for tasks such as part positioning, indexing, clamping, cutting, and material handling. The precise and repeatable rotational motion offered by rotary cylinders contributes to the overall efficiency and productivity of stationary machinery.

3. Versatile Mounting Options: Rotary cylinders come with versatile mounting options, allowing them to be easily integrated into different types of machinery, whether mobile or stationary. They can be mounted in various orientations and configurations to suit specific application requirements. This flexibility in mounting ensures that rotary cylinders can be effectively applied in diverse machinery designs.

4. Customization: Manufacturers offer a wide range of rotary cylinder models with different sizes, load capacities, and performance characteristics. This allows users to select the most suitable cylinder for their specific mobile or stationary machinery application. Additionally, rotary cylinders can be customized to meet specific requirements, such as stroke length, rotational speed, and mounting interfaces, further enhancing their applicability in both mobile and stationary contexts.

5. Environmental Considerations: Rotary cylinders are designed and engineered to withstand various environmental conditions encountered in both mobile and stationary machinery. They are constructed using durable materials that can withstand factors such as vibration, shock, temperature variations, and exposure to dust, moisture, or corrosive substances. This ensures reliable performance and longevity, regardless of whether the machinery is mobile or stationary.

6. Integration with Control Systems: Rotary cylinders can be seamlessly integrated into control systems, such as hydraulic or pneumatic control circuits, electronic control units (ECUs), or programmable logic controllers (PLCs). This integration allows for precise control and coordination of the rotary motion with other machine functions, enabling efficient operation and automation in both mobile and stationary machinery.

Overall, the adaptability, versatility, and performance characteristics of rotary cylinders make them suitable for application in a wide range of machinery, whether it is mobile or stationary, contributing to enhanced functionality and efficiency in various industries.

rotary cylinder

How do rotary cylinders handle variations in rotation and positioning?

Rotary cylinders are designed to handle variations in rotation and positioning with precision and control. Here’s a detailed explanation:

Rotation Variations:

1. Actuation Method: Rotary cylinders use different actuation methods, such as hydraulic or pneumatic pressure, to generate rotational motion. By varying the pressure or flow rate of the fluid, the speed and torque of the rotation can be adjusted to meet specific requirements.

2. Control Valves: Control valves are used to regulate the fluid flow into and out of the rotary cylinder. By adjusting the valve settings, the rotational speed and direction can be controlled, allowing for variations in rotation as needed.

3. Feedback Systems: Some rotary cylinders incorporate feedback systems, such as position sensors or encoders, to provide real-time information about the cylinder’s rotational position. This feedback enables precise control and the ability to handle variations in rotation accurately.

Positioning Variations:

1. Stroke Adjustment: Rotary cylinders often have adjustable stroke lengths, which allow for variations in the positioning of the rotary motion. By adjusting the stroke, the range of the rotary movement can be customized to suit the specific application.

2. Positioning Guides: Rotary cylinders may feature positioning guides, such as grooves or slots, that help guide and stabilize the rotational movement. These guides ensure accurate positioning and minimize deviations or wobbling during operation.

3. Limit Switches: Limit switches or proximity sensors are sometimes used in rotary cylinders to define specific positions or limit the rotary motion within a predetermined range. These switches provide feedback to the control system, enabling precise positioning control.

4. Precision Manufacturing: Rotary cylinders are manufactured with high precision to ensure smooth and accurate rotation. The use of high-quality materials, precision machining, and tight tolerances contribute to minimizing variations in rotation and positioning.

Overall, the combination of actuation methods, control valves, feedback systems, stroke adjustment, positioning guides, limit switches, and precision manufacturing allows rotary cylinders to handle variations in rotation and positioning with the required level of accuracy and control.

It’s important to refer to the manufacturer’s specifications and guidelines for specific information on the capabilities and limitations of rotary cylinders in handling rotation and positioning variations.

China high quality Hydraulic Cylinder, Mill Type Design Cdh1 Cgh1 Csh1 Cdh2 Cgh2 Csh2 High Temperature and High Pressure, Metallurgical Cylinder   vacuum pump acChina high quality Hydraulic Cylinder, Mill Type Design Cdh1 Cgh1 Csh1 Cdh2 Cgh2 Csh2 High Temperature and High Pressure, Metallurgical Cylinder   vacuum pump ac
editor by CX 2023-12-07