Vacuum gripping element and vacuum gripping device

The invention claimed is: 1 . A vacuum gripping element ( 1 ), which is configured to suck or hold a component to be transported when subjected to a vacuum, comprising a base body ( 2 ) with at least one vacuum supply channel ( 3 ), an elastic, form-flexible sealing element ( 4 ), which is connected to the base body ( 2 ) and is provided for sealing contact with the component to be transported, a first fastening means ( 5 ) on the base body ( 2 ) for fastening the vacuum gripping element ( 1 ) on a carrying device ( 6 ), wherein the base body ( 2 ) and the sealing element ( 4 ) are arranged along a main axis ( 7 ) of the vacuum gripping element ( 1 ), wherein the first fastening means ( 5 ) is formed by a locking coupling ( 8 ) for positively connecting and releasing the vacuum gripping element ( 1 ) relative to the carrying device ( 6 ) as required, or wherein the base body ( 2 ) comprises a first base body part ( 30 ) and a second base body part ( 31 ), said first base body part ( 30 ) being provided for positively connecting and releasing relative to the carrying device ( 6 ) as required by means of the first fastening means ( 5 ), and said second base body part ( 31 ) being connected to the elastic, form-flexible sealing element ( 4 ), and wherein a second fastening means ( 32 ) for positively connecting and releasing the first base body part ( 30 ) relative to the second base body part ( 31 ) is formed by a locking coupling ( 8 ), and wherein the base body ( 2 ) comprises a hollow-cylindrical fastening section ( 9 ) in which the locking coupling ( 8 , 8 ′) is formed, and wherein the locking coupling ( 8 , 8 ′) comprises an actuator element ( 10 ), a spring element ( 11 ) and at least one locking element ( 12 ), wherein the spring element ( 11 ) urges the actuator element ( 10 ) into an end position, and wherein the at least one locking element ( 12 ) is urged into a locking position by the actuator element ( 10 ), wherein the actuator element ( 10 ) is arranged within the hollow-cylindrical fastening section ( 9 ) and is mounted so as to be adjustable along the main axis ( 7 ), and wherein the actuator element ( 10 ) comprises an actuating surface ( 17 ) which is provided for the application of pressure starting out from a constructionally separate, pin-shaped actuating tool ( 18 ). 2 . The vacuum gripping element ( 1 ) according to claim 1 , wherein the at least one locking element ( 12 ) is mounted so as to be adjustable radially to the main axis ( 7 ). 3 . The vacuum gripping element ( 1 ) according to claim 1 , wherein at least one locking element ( 12 ) is embodied as a ball ( 13 ), in particular by at least three, preferably five, balls ( 13 ) arranged so as to be distributed across the circumference of the hollow-cylindrical fastening section ( 9 ). 4 . The vacuum gripping element ( 1 ) according to claim 1 , wherein the actuator element ( 10 ) is embodied in the form of a slider or piston and, on its outer lateral surface of the actuator element ( 33 ), has at least one contact surface ( 14 ) to the at least one locking element ( 12 ) that is inclined relative to the main axis ( 7 ). 5 . The vacuum gripping element ( 1 ) according to claim 1 , wherein an annular-groove-shaped inner jacket indentation ( 35 ) is formed on the inner lateral surface ( 34 ) of the second base body part ( 31 ) for receiving the at least one locking element ( 12 ). 6 . The vacuum gripping element ( 1 ) according to claim 1 , wherein the hollow-cylindrical fastening section ( 9 ) is limited by at least one stop surface ( 16 ) starting from its axial end face ( 15 ) in the direction towards the sealing element ( 4 ). 7 . The vacuum gripping element ( 1 ) according to claim 1 , wherein a force effect of the spring element ( 11 ) acts on the actuator element ( 10 ) starting out from a free axial end face ( 15 ) of the base body ( 2 ) in the direction towards the sealing element ( 4 ). 8 . The vacuum gripping element ( 1 ) according to claim 1 , wherein a force effect of the spring element ( 11 ) acts on the actuator element ( 10 ) starting out from the sealing element ( 4 ) in the direction towards a free axial end face ( 15 ) of the base body ( 2 ). 9 . The vacuum gripping element ( 1 ) according to claim 1 , wherein the actuator element ( 10 ) has a vacuum effect surface ( 19 ) limiting the vacuum supply channel ( 3 ), said vacuum effect surface ( 19 ) being dimensioned such that when a vacuum is present in the vacuum supply channel ( 3 ), the actuator element ( 10 ) is increasingly urged into the direction of the axial end position in which the at least one locking element ( 12 ) is urged into a locking position by the actuator element ( 10 ). 10 . The vacuum gripping element ( 1 ) according to claim 1 , wherein a locking valve, in particular a back pressure valve, is formed in the vacuum supply channel ( 3 ), said locking valve closing the vacuum supply channel ( 3 ) in the direction towards the sealing element ( 4 ) when a vacuum is present in the vacuum supply channel ( 3 ). 11 . The vacuum gripping element ( 1 ) according to claim 10 , wherein the actuator element ( 10 ) comprises an excess pressure effect surface limiting the vacuum supply channel ( 3 ), said excess pressure effect surface being dimensioned such that when an excess pressure is present in the vacuum supply channel ( 3 ), the actuator element ( 10 ) is urged into the direction of its position deactivating the at least one locking element ( 12 ). 12 . The vacuum gripping element ( 1 ) according to claim 1 , wherein a supply section ( 20 ) is formed between the hollow-cylindrical fastening section ( 9 ) and the sealing element ( 4 ) in relation to the main axis ( 7 ). 13 . The vacuum gripping element ( 1 ) according to claim 12 , wherein the supply section ( 20 ) is formed for supplying the vacuum gripping element ( 1 ) with a vacuum at the first base body part ( 30 ). 14 . The vacuum gripping element ( 1 ) according to claim 12 , wherein the supply section ( 20 ) is formed for supplying the vacuum gripping element ( 1 ) with a vacuum at the second base body part ( 31 ). 15 . The vacuum gripping element ( 1 ) according to claim 12 , wherein a vacuum supply connection ( 21 ), in particular at least one hose coupling ( 22 ) that can be actuated without a tool, is formed in the supply section ( 20 ) and is fluidically connected to the vacuum supply channel ( 3 ) and wherein the vacuum supply connection ( 21 ) can be connected to a vacuum generator device via a hose ( 23 ) if required. 16 . The vacuum gripping element ( 1 ) according to claim 1 , wherein the vacuum supply channel ( 3 ) is embodied to be flow-tight after positively connecting the first base body part ( 30 ) relative to the second base body part ( 31 ) by means of the locking coupling ( 8 ′). 17 . The vacuum gripping element ( 1 ) according to claim 1 , wherein the first fastening means ( 5 ) is formed by a spring ring ( 38 ) arranged in an annular-groove-shaped outer jacket indentation ( 36 ) on the outer lateral surface ( 37 ) of the first base body part ( 30 ). 18 . The vacuum gripping element ( 1 ) according to claim 1 , wherein the first fastening means ( 5 ) is formed by a thread arranged on the outer lateral surface ( 37 ) of the first base body part ( 30 ). 19 . The vacuum gripping element ( 1 ) according to claim 1 , wherein the first base body part ( 30 ) is limited by at least one flange surface ( 39 ) starting out from the sealing element ( 4 ) in the direction towards an axial end f