Permanent magnetic chuck (circular) TC-160B

Permanent magnetic chuck (circular) TC-160BPermanent magnetic chuck (circular) TC-160B€307.00

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1 pcs. €307.00 €377.61
Quantity
Available Quantity: 3 pcs.

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Performance parameters

External diameter

160 [mm]

Height

55 [mm]

Magnet type

Neodymium

Maximum working temperature

≤ 80 [°C]

pole layout

poprzeczny do kierunku obróbki, 3 + 1 mm

with separable magnetic field

yes

Magnetic field switcher

yes, one for all planes

handling mode

ręczny

Circular

yes

for the small parts holding

yes

Number of axis to attach details

1

force needed to mount ( to attract) items

100

Weight

7.5 [kg]

TC series circular permanent magnetic chucks are designed to clamp ferromagnetic workpieces (i.e. iron, structural steel, alloy steel, cast iron) during grinding, milling and electrical discharge machining. In the case of materials with high magnetic properties (steels with high iron content), the chucks can be used as holders in turning operations.

The chuck can be mounted using the grooves at its bottom or the four threaded holes (see the attachments). The body of the chuck consists of a single block of steel, while its top plate is made from steel and brass lamellas placed interchangeably. TC series circular chucks use neodymium magnets, thanks to which the maximum magnetic clamping force of approx. 100 N/cm2 is achieved. The magnetic field can be turned on with the use of a lever (Allen wrench), by turning the lever to the right by 180º. To turn the field off, the lever should be turned inversely.

The rigid structure of the chuck enables very precise machining, while its tightness allows using the chuck for operations involving coolant or operations in full submersion. The simplicity of the design ensures a long and reliable operation of the device. A lack of electrical power supply makes the chuck completely safe during the operation. The pole pitch (3.0 + 1.0 mm) enables firm clamping at a small height of the magnetic field, thanks to which the workpieces clamped can be thin. Pole pitch diagram:

The clamping force depends on the following parameters:

  • type of material (the clamping force increases proportionally to the content of iron in steel):

- Armco iron            100%
- low-carbon steel     90% (St3s)
- high-carbon steel    80% (St45)
- alloy steel              70% (Corrax)
- high-alloy steel       65% (1.2436)
- cast iron               50%

  • roughness of the surface of the chuck and the workpiece clamped:

- for Ra up to 0.08 µm   100%
- for Ra up to 0.20 µm     90%
- for Ra up to 1.25 µm     70%
- for Ra up to 6.30 µm     50%
- for Ra up to 25.00 µm   30%

  • thickness of the workpiece clamped (the tests were carried out for plates with the size of 20 x 20 mm made of Armco iron):

  • contact area - in order to ensure good holding, workpieces cannot be shorter than 3 mm and additionally, in the case of small surfaces, they should be surrounded with auxiliary plates. The maximum clamping force per sq. cm is obtained for workpieces with an area of approx. 4 sq. cm. A further increase in the workpiece area does not translate into a higher clamping force. It is also important that the workpiece clamped is parallel to the chuck, because every roughness, even the smallest, causes a decrease of the clamping force. The design of the chuck allows regenerating the working area by grinding it to 5 mm of the thickness.

The circulair permanent magnetic sine chucks available in our offer are presented below:

 

Typ of the chuck Dimensions [mm] Weight [kg]
D H L Pole pitch D2 D3 M
TC-110B 110 50 80 3+1 70 90 4x M8 4,6
TC-125B 120 52 95 90 110 4x M8 5,5
TC-150B 150 50 117 110 130 4x M8 6,5
TC-160B 160 52 129 120 140 4x M10 7,5
TC-200B 200 55 169 on request 11,5
TC-250B 200 55 213 on request 19,5
TC-300B 300 55 270 on request 27,5

TC series circular permanent magnetic chucks are designed to clamp ferromagnetic workpieces (i.e. iron, structural steel, alloy steel, cast iron) during grinding, milling and electrical discharge machining. In the case of materials with high magnetic properties (steels with high iron content), the chucks can be used as holders in turning operations.

The chuck can be mounted using the grooves at its bottom or the four threaded holes (see the attachments). The body of the chuck consists of a single block of steel, while its top plate is made from steel and brass lamellas placed interchangeably. TC series circular chucks use neodymium magnets, thanks to which the maximum magnetic clamping force of approx. 100 N/cm2 is achieved. The magnetic field can be turned on with the use of a lever (Allen wrench), by turning the lever to the right by 180º. To turn the field off, the lever should be turned inversely.

The rigid structure of the chuck enables very precise machining, while its tightness allows using the chuck for operations involving coolant or operations in full submersion. The simplicity of the design ensures a long and reliable operation of the device. A lack of electrical power supply makes the chuck completely safe during the operation. The pole pitch (3.0 + 1.0 mm) enables firm clamping at a small height of the magnetic field, thanks to which the workpieces clamped can be thin. Pole pitch diagram:

The clamping force depends on the following parameters:

  • type of material (the clamping force increases proportionally to the content of iron in steel):

- Armco iron            100%
- low-carbon steel     90% (St3s)
- high-carbon steel    80% (St45)
- alloy steel              70% (Corrax)
- high-alloy steel       65% (1.2436)
- cast iron               50%

  • roughness of the surface of the chuck and the workpiece clamped:

- for Ra up to 0.08 µm   100%
- for Ra up to 0.20 µm     90%
- for Ra up to 1.25 µm     70%
- for Ra up to 6.30 µm     50%
- for Ra up to 25.00 µm   30%

  • thickness of the workpiece clamped (the tests were carried out for plates with the size of 20 x 20 mm made of Armco iron):

  • contact area - in order to ensure good holding, workpieces cannot be shorter than 3 mm and additionally, in the case of small surfaces, they should be surrounded with auxiliary plates. The maximum clamping force per sq. cm is obtained for workpieces with an area of approx. 4 sq. cm. A further increase in the workpiece area does not translate into a higher clamping force. It is also important that the workpiece clamped is parallel to the chuck, because every roughness, even the smallest, causes a decrease of the clamping force. The design of the chuck allows regenerating the working area by grinding it to 5 mm of the thickness.

The circulair permanent magnetic sine chucks available in our offer are presented below:

 

Typ of the chuck Dimensions [mm] Weight [kg]
D H L Pole pitch D2 D3 M
TC-110B 110 50 80 3+1 70 90 4x M8 4,6
TC-125B 120 52 95 90 110 4x M8 5,5
TC-150B 150 50 117 110 130 4x M8 6,5
TC-160B 160 52 129 120 140 4x M10 7,5
TC-200B 200 55 169 on request 11,5
TC-250B 200 55 213 on request 19,5
TC-300B 300 55 270 on request 27,5
stmo160_3+1
3 Items
Specific References