Shock absorber stroke 15mm
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Shock absorber stroke 15mm

Shock absorber stroke 15

The shock absorbers of series 4-1777-*-0 are studied in order to convert into thermal energy the kinetic energy generated from mechanical devices in motion. Those absorbers are axial sliding type, the direction of motion proper of the device to be cushioned will have to be coaxial to the shock absorber and as coincident as possible to the axis of the shock absorber. Should the motion be rotatory, as shown below, it will be necessary to convert it into linear motion by means of levers studied so to minimize the radial components during the impact; this to prevent radial charges on the shock...

Thanks to its structural features, this system grants the correct functioning of the device also in particularly unfavourable environment conditions, ensuring effectiveness for a high number of manoeuvres and long lasting operating life. Functioning scheme The image represents the functioning diagram of the shock absorber code 4-1777-0. The left part of the hydraulic chamber represents the area of the volumetric compensator, while the right part represents the throttling piston and its one-way valve for quick return.

Principle of functioning This system is based on the physical principle of dissipation of energy caused from the temperature increase. In this specific case the increase of temperature is obtained by means of the hydraulic fluid contained in the shock absorber which is pushed to flow through a gauged opening; this generates a mechanical resistance which is transformed into increase of the fluid temperature. It is then worthy of note that, although during a single cycle the dispersible energy may result extremely high, the total dispersible energy in the time unit (h) is strictly connected...

Overall dimensions The figure represents the outer view with the overall dimensions of the shock absorber code 4-1777-0. The device is fixed to the host structure by means of a thread M30x1.5 obtained on the outer of the damper body. Differently from the version 4-1621-*-0, device can not be used as limit switch for the hosting structure. Upon nuts and fixing clamps are available.

Technical Data’s MAXIMUM EFFECTIVE MASS TOTAL ENERGY PER CYCLE (W3) TOTAL ENERGY PER HOUR (W4) MAXIMUM IMPACT SPEED (Vd) ENVIRONMENT MINIMUM TEMPERATURE ENVIRONMENT MAXIMUM TEMPERATURE TECNOFLUID ENGINEERING srl Via Dei Mille, 1 20031 CESANO MADERNO (MB) TEL. 0362.645981 FAX 0362.645999 e-mail: info@tecnofluid.info http: www.tecnofluid.info

The shock absorbers of series 4-1621-*-0 are studied in order to convert into thermal energy the kinetic energy generated from mechanical devices in motion. Those absorbers are axial sliding type, the direction of motion proper of the device to be cushioned will have to be coaxial to the shock absorber and as coincident as possible to the axis of the shock absorber. Should the motion be rotatory, as shown below, it will be necessary to convert it into linear motion by means of levers studied so to minimize the radial components during the impact; this to prevent radial charges on the shock...

Thanks to its structural features, this system grants the correct functioning of the device also in particularly unfavourable environment conditions, ensuring effectiveness for a high number of manoeuvres and long lasting operating life. Functioning scheme The image represents the functioning diagram of the shock absorber code 4-1621-*0. The left part of the hydraulic chamber represents the area of the volumetric compensator, while the right part represents the throttling piston and its one-way valve for quick return.

Principle of functioning This system is based on the physical principle of dissipation of energy caused from the temperature increase. In this specific case the increase of temperature is obtained by means of the hydraulic fluid contained in the shock absorber which is pushed to flow through a gauged opening; this generates a mechanical resistance which is transformed into increase of the fluid temperature. It is then worthy of note that, although during a single cycle the dispersible energy may result extremely high, the total dispersible energy in the time unit (h) is strictly connected...

Overall dimensions The figure represents the outer view with the overall dimensions of the shock absorber code 4-1621-*-0. The device is fixed to the host structure by means M35x1.5 obtained on the outer body. damper request threaded nuts and fixing clamps are available.

Technical Data’s MAXIMUM EFFECTIVE MASS TOTAL ENERGY PER CYCLE (W3) TOTAL ENERGY PER HOUR (W4) MAXIMUM IMPACT SPEED (Vd) ENVIRONMENT MINIMUM TEMPERATURE ENVIRONMENT MAXIMUM TEMPERATURE TECNOFLUID ENGINEERING srl Via Dei Mille, 1 20031 CESANO MADERNO (MB) TEL. 0362.645981 FAX 0362.645999 e-mail: info@tecnofluid.info http: www.tecnofluid.info