Gas Spring

We manufacture high quality Micro Gas Spring which is avialable with us at very affordable rates and are very durable. These products are in very high demand in the market by our clients.
Please refer to the attached PDF for more details.

We provide our clients with high quality Titan Gas Spring.

Specifications:

• Pressure medium- Nitrogen Gas (N ) 2
• Max. charging pressure- 200 Bar
• Min. charging pressure- 25 Bar
• Rod seal area- 2,54 cm2
• Max. working temperature- 80ºC
• Force increase by temperature- 0,33% / 1ºC
• Max. stem speed- 15 m/min
• Maintenance kit- kit T32

Refer to the attached PDF for more details.

We provide our clients with highly durable TPH Gas Springs.

Specifications:

• Pressure medium- Nitrogen Gas (N ) 2
• Max. charging pressure- 175 Bar
• Min. charging pressure- 35 Bar
• Rod seal area- 4,91 cm2
• Max. working temperature- 80ºC
• Force increase by temperature- 0,33% / 1ºC
• Max. stem speed- 20 m/min
• Maintenance kit- kit H850

Refer to the attached PDF for more details.

We have with us for our clients TPC Gas Spring avialable at market leading prices.

Specifications:

• Pressure medium- Nitrogen Gas (N ) 2
• Max. charging pressure- 175 Bar
• Min. charging pressure- 25 Bar
• Rod seal area- 1,13 cm2
• Max. working temperature- 80ºC
• Force increase by temperature- 0,33% / 1ºC
• Max. stem speed- 0,6 m/s
• Maintenance kit- kit C25

Refer to the attached PDF for more details.

We have with us for our clients TPCT Gas Spring which are of very high quality and very durable.

Specifications:

• Pressure medium- Nitrogen Gas (N ) 2
• Max. charging pressure- 150 Bar
• Min. charging pressure- 25 Bar
• Rod seal area- 2,01 cm2
• Max. working temperature- 80ºC
• Force increase by temperature- 0,33% / 1ºC
• Max. stem speed- 1 m/s
• Maintenance kit- kit CT300

Refer to the attached PDF for more details.

We manufacture high quality TPF Gas Spring which are very durable and lasts long.
Specifications:

• Pressure medium- Nitrogen Gas (N ) 2
• Max. charging pressure- 150 Bar
• Min. charging pressure- 50 Bar
• Rod seal area- 3,14 cm2
• Max. working temperature- 80ºC
• Force increase by temperature- 0,33% / 1ºC
• Max. stem speed- 20 m/min
• Maintenance kit- kit F420

Refer to the attached PDF for more details.

We have with us high quality TPS Gas Spring at market leading rates.
Specifications:

• Pressure medium- Nitrogen Gas (N ) 2
• Max. charging pressure- 150 Bar
• Min. charging pressure- 35 Bar
• Rod seal area- 3,14 cm2
• Max. working temperature- 80ºC
• Force increase by temperature- 0,33% / 1ºC
• Max. stem speed- 1 m/s
• Maintenance kit- kit SP500

Refer to thr attached PDF for more details.

We provide our clients with high quality TPB Gas Spring at very affordable rates.

Specifications:

• Pressure medium- Nitrogen Gas (N ) 2
• Max. charging pressure- 175 Bar
• Min. charging pressure- 25 Bar
• Rod seal area- 2,01 cm2
• Max. working temperature- 80ºC
• Force increase by temperature- 0,33% / 1ºC
• Max. stem speed- 1,2 m/s
• Maintenance kit- kit B350

Refer to the attached PDF for more details

We Provide high quality TPA/TPG Gas Spring wchis is very durable and avialable wih us at leading market prices. These are very much in demand by our clients and widely appreciated by them.

Please refer to the attached PDF for more details.

We have with us at very affordable rates TPR Gas Spring.

Specifications:

• Pressure medium- Nitrogen Gas (N ) 2
• Max. charging pressure- 175 Bar
• Min. charging pressure- 35 Bar
• Rod seal area- 0,28 cm2
• Max. working temperature- 80ºC
• Force increase by temperature- 0,33% / 1ºC
• Max. stem speed- 0,5 m/s
• Maintenance kit- kit R16

Refer to the attached PDF for more details.

Gas springs of the TPSR series make it possible to control stem recovery speed when the gas spring opens after its compression. During the compression phase, TPSR gas springs work in just the same manner as that of a conventional gas spring. It is during this phase when the gas spring recovers its original position that we obtain this delay-effect that allows us to avoid damage to delicate parts since the press does not recover its original position at the same speed. This characteristic allows for a maximum optimisation of working conditions. Speed selection is carried out by manipulating an internal valve situated on the stem head. Turning the valve to the right decreases the speed and turning it to the left increases it. In order to avoid damage in the sealing system due to an increase in temperature, the gas spring stroke rate should be limited. The temperature should not be allowed to go above 80°C. In order to use this product correctly the customer is to provide data as requested in the order sample. The TPSR series is manufactured in ISO-norm dimensions. They admit operation both in the autonomous mode and connected to a control panel.

Cylinders with stem controlled movement can stop at the desired working position, with the possibility of deciding when stem withdrawal is to take place by means of an electric signal, in accordance with the application that is being executed.

The complete set has the following elements:
• Working cylinder
• Pressure accumulator
• Adaptor plate
• Hydraulic valve

The adaptor plate lodges all the elements, communicating them one with another. The working cylinder, which is full of oil, is connected through the adaptor plate to the pressure accumulator. This is subjected in one of its parts to nitrogen gas pressure, thus providing pressure for the whole system. The accumulator has the capacity to absorb the whole of the volume of oil displaced by the working cylinder.
The working cylinder is activated by the movement of the press, displacing the hydraulic volume freely through the adaptor plate up to the pressure accumulator. Once the working stroke has been attained, the hydraulic valve, which is controlled by
means of an electric signal, stops the return of hydraulic fluid from the accumulator to the working cylinder, with which the stem movement stops. When the hydraulic valve opens once again, the hydraulic volume returns to the working cylinder, thus bringing about the return of the stem to its stand-by position. The pressure accumulator is regulated in accordance to pressure device norms, as it is charged with nitrogen gas at a pressure of 150 Bar.