Pneumatic tube or hose for releasable airtight connection to a pneumatic port and respective pneumatic port

The invention claimed is: 1. Pneumatic tube or hose ( 28 ) having a longitudinal axis ( 70 ) along a longitudinal extension of the pneumatic tube or hose ( 28 ) and having two ends each provided with a respective socket ( 66 ) adapted for a releasable airtight connection to a pneumatic port ( 64 ) of a vacuum unit or device ( 2 , 32 , 34 ), including either a vacuum generation unit ( 2 ) or a vacuum utilization device ( 32 ; 44 ), at least one socket ( 66 ) of the pneumatic tube or hose ( 28 ) comprises at least one magnetic element ( 80 ) adapted for interaction with at least one corresponding magnetic element ( 78 ) provided in the pneumatic port ( 64 ) in order to secure the at least one socket ( 66 ) of the pneumatic tube or hose ( 28 ) to the pneumatic port ( 64 ) by means of a magnetic force ( 100 ), the at least one socket ( 66 ) having a ramp shaped circumferential end surface ( 76 ) with the at least one magnetic element ( 80 ) provided therein and facing the pneumatic port ( 64 ) when the at least one socket ( 66 ) is secured to the pneumatic port ( 64 ), the ramp shaped circumferential end surface ( 76 ) extending around the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ) and adapted for interaction with a corresponding ramp shaped circumferential end surface ( 74 ) of the pneumatic port ( 64 ) having the at least one corresponding magnetic element ( 78 ) provided therein, having a starting region ( 84 ) with an end surface ( 96 , 98 ), and an end region ( 86 ) with a corresponding end surface ( 96 , 98 ), each end surface ( 96 , 98 ) facing in a circumferential direction with respect to the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ), at least one end surface ( 96 , 98 ) of the end surface ( 96 , 98 ) and the corresponding end surface ( 96 , 98 ) having the at least one magnetic element ( 80 ) dispose therein, and having a ramp shape continuously rising from the starting region ( 84 ) to the end region ( 86 ), winding around the longitudinal axis ( 70 ) and extending in a direction parallel to and along the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ), the ramp shaped circumferential end surface ( 76 ) and the corresponding ramp shaped circumferential end surface ( 74 ) allowing the at least one magnetic element ( 80 ) to interact with the at least one corresponding magnetic element ( 78 ) so that rotation of the at least one socket ( 66 ) in respect to the pneumatic port ( 64 ) about the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ) will increase a combined circumferential and axial distance and reduce the magnetic force ( 100 ) acting between the at least one magnetic element ( 80 ) and the at least one corresponding magnetic element ( 78 ), so as to facilitate release of the releasable airtight connection between the at least one socket ( 66 ) and the at least one pneumatic port ( 64 ), wherein the at least one magnetic element ( 80 ) assigned to the at least one socket ( 66 ) of the pneumatic tube or hose ( 28 ) and the at least one corresponding magnetic element ( 78 ) assigned to the pneumatic port ( 64 ) are arranged with respect to the ramp shaped circumferential end surface ( 76 ) and the corresponding ramp shaped circumferential end surface ( 74 ) so that the magnetic force ( 100 ) acts along the ramp shaped circumferential end surface ( 76 ) and the corresponding ramp shaped circumferential end surface ( 74 ) and around the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ). 2. Pneumatic tube or hose ( 28 ) according to claim 1 , wherein the at least one magnetic element ( 80 ) of the at least one socket ( 66 ) of the pneumatic tube or hose ( 28 ) comprises at least one of a permanent magnet and a ferromagnetic element. 3. Pneumatic tube or hose ( 28 ) according to claim 2 , wherein the pneumatic tube or hose ( 28 ) is a flexible suction hose. 4. Pneumatic tube or hose ( 28 ) according to claim 1 , wherein the pneumatic tube or hose ( 28 ) is rotatably connected to the vacuum unit or device ( 2 , 32 , 34 ) about the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ). 5. Pneumatic tube or hose ( 28 ) according to claim 4 , wherein the at least one socket ( 66 ) of the pneumatic tube or hose ( 28 ) comprising the at least one magnetic element ( 80 ) is attached to the vacuum unit or device ( 2 , 32 , 34 ) by a rotary connection element ( 88 ) so that the pneumatic tube or hose ( 28 ) can rotate with respect to the at least one socket ( 66 ) about the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ). 6. Pneumatic tube or hose ( 28 ) according to claim 1 , wherein the pneumatic tube or hose ( 28 ) is a flexible suction hose. 7. Pneumatic tube or hose ( 28 ) according to claim 1 , wherein the pneumatic tube or hose ( 28 ) is adapted for the releasable airtight connection to the pneumatic port ( 64 ) of the vacuum generation unit ( 2 ) embodied as a dust extraction system, including a mobile vacuum cleaner, or the pneumatic tube or hose ( 28 ) is adapted for the releasable airtight connection to a second pneumatic port ( 42 ; 64 ) of the vacuum utilization device ( 32 ; 44 ) embodied as a hand-guided power tool, including a sanding machine or a polishing machine. 8. Pneumatic tube or hose ( 28 ) according to claim 1 , wherein each of the end surface ( 96 , 98 ) and the corresponding end surface ( 96 , 98 ) of the at least one socket ( 66 ) includes at least one respective magnetic element ( 80 ) disposed therein. 9. Pneumatic port ( 64 ) of a vacuum unit or device ( 2 , 32 , 34 ), including a generation unit ( 2 ) or a vacuum utilization device ( 32 ; 44 ), the pneumatic port ( 64 ) being adapted for a releasable airtight connection to a socket ( 66 ) provided at one end of a pneumatic tube or hose ( 28 ) having a longitudinal axis ( 70 ) along a longitudinal extension of the pneumatic tube or hose ( 28 ), the pneumatic port ( 64 ) comprises at least one magnetic element ( 78 ) adapted for interaction with at least one corresponding magnetic element ( 80 ) provided at the socket ( 66 ) of the pneumatic tube or hose ( 28 ), in order to secure the socket ( 66 ) to the pneumatic port ( 64 ) by means of a magnetic force ( 100 ), the pneumatic port ( 64 ) having a ramp shaped end circumferential surface ( 74 ) with the at least one magnetic element ( 78 ) provided therein and facing the socket ( 66 ) of the pneumatic tube or hose ( 28 ) when the socket ( 66 ) is secured to the pneumatic port ( 64 ), the ramp shaped circumferential end surface ( 74 ) extending around the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ) and adapted for interaction with a corresponding ramp shaped circumferential end surface ( 76 ) of the socket ( 66 ) having the at least one corresponding magnetic element ( 80 ) provided therein, having a starting region an end surface and an end region with a corresponding end surface, the starting region and the end region corresponding to a corresponding starting region ( 84 ) and a corresponding end region ( 86 ) of the socket ( 66 ) of the pneumatic tube or hose ( 28 ), each end surface facing in a circumferential direction with respect to the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ), at least one end surface having the at least one magnetic element ( 78 ) disposed therein, and having a ramp shape continuously rising from the starting region to the end region, winding around the longitudinal axis ( 70 ) of the pneumatic tube or hose ( 28 ) and extending in a direction parallel to and along the longitudinal axis ( 70 ), the ramp shaped circumferential end surface ( 74 ) and the corresponding ramp shaped circumferential end surface ( 76 ) allowing the at least one magn