A movable dust collection device includes a processing table, a processing machine, and a collection unit. By the movable suction box, the dust, small parts and debris under the processing gun can be directly sucked and collected. The control unit controls the motor to drive the driving wheels to move the suction box beyond the processing table, which facilitates the cleaning of the small parts and debris, and improves the shortcoming of lifting the entire collection board for cleaning in the prior art.

A movable dust collection device includes a processing table, a processing machine, and a collection unit. By the movable suction box, the dust, small parts and debris under the processing gun can be directly sucked and collected. The control unit controls the motor to drive the driving wheels to move the suction box beyond the processing table, which facilitates the cleaning of the small parts and debris, and improves the shortcoming of lifting the entire collection board for cleaning in the prior art.

A gas discharger connected to a source of pressurized gas comprises a gas channel that is opened to discharge the pressurized gas. A vacuum source can be separately or simultaneously operable with the gas discharger by using the pressurized gas or by using electrical power.

A gas discharger connected to a source of pressurized gas comprises a gas channel that is opened to discharge the pressurized gas. A vacuum source can be separately or simultaneously operable with the gas discharger by using the pressurized gas or by using electrical power.

The invention relates o a laser processing machine (11) with a laser processing head (12), with a support grate (16) that defines a support plane (A) for supporting a workpiece (8) to be processed, with a fluid supply device (21) and with a fluid removal device (31). The fluid supply device (21) and fluid removal device (31) are designed to generate a fluid flow (27) under the support plane (A) of the support grate (16). The fluid supply device (21) can be moved with the laser processing head (12).

The present disclosure provides a valve (123), comprising a channel body (1231) defining a bent channel space, an elastically flexible membrane (1233), which separates a control space (Sc) from a flow space (Sf) in the channel space, a control connection (1232), providing a fluid connection to the control space (Sc), The control space (Sc) is provided at a radially outermost portion (Co) of the channel space, as per a channel bending radius (Ro), such that the membrane (1233) is flexible between an open position, whereby a cross section of the flow space (Sf) is substantially that of the channel, and a closed position, whereby the membrane substantially seals against a radially innermost portion (Ci) of the channel, as per the channel bending radius (Ri). Use of the valve in a separator is disclosed, as well as a separator comprising such valve and a method of cleaning a separator body.

The present disclosure provides a valve (123), comprising a channel body (1231) defining a bent channel space, an elastically flexible membrane (1233), which separates a control space (Sc) from a flow space (Sf) in the channel space, a control connection (1232), providing a fluid connection to the control space (Sc), The control space (Sc) is provided at a radially outermost portion (Co) of the channel space, as per a channel bending radius (Ro), such that the membrane (1233) is flexible between an open position, whereby a cross section of the flow space (Sf) is substantially that of the channel, and a closed position, whereby the membrane substantially seals against a radially innermost portion (Ci) of the channel, as per the channel bending radius (Ri). Use of the valve in a separator is disclosed, as well as a separator comprising such valve and a method of cleaning a separator body.

A shoe treating apparatus includes an upper cabinet, a lower cabinet disposed below the upper cabinet, an electronic component part disposed below the lower cabinet, a sensor part, and a processor electrically connected to the electronic component part and the sensor part. The processor may identify at least one of a material, a type, and a condition of at least one shoe in the upper cabinet, and based on the identification, perform normal treatment on the at least one shoe in the upper cabinet through the electronic component part. The processor may identify at least one of a material, a type, and a condition of at least one shoe in the lower cabinet, and based on the identification, perform intensive treatment on the at least one shoe in the lower cabinet through the electronic component part. A method of operating the shoe treating apparatus is also provided.

A shoe treating apparatus includes an upper cabinet, a lower cabinet disposed below the upper cabinet, an electronic component part disposed below the lower cabinet, a sensor part, and a processor electrically connected to the electronic component part and the sensor part. The processor may identify at least one of a material, a type, and a condition of at least one shoe in the upper cabinet, and based on the identification, perform normal treatment on the at least one shoe in the upper cabinet through the electronic component part. The processor may identify at least one of a material, a type, and a condition of at least one shoe in the lower cabinet, and based on the identification, perform intensive treatment on the at least one shoe in the lower cabinet through the electronic component part. A method of operating the shoe treating apparatus is also provided.

Disclosed is a system for suctioning braking particles from a friction braking system of a vehicle, the suction system including a negative-pressure source, a suction mouth, a filter, a pneumatic circuit connecting the suction mouth to the negative-pressure source, and a control unit configured to control the negative-pressure source, the suction system also including a pressure sensor for measuring the pressure prevailing in the pneumatic circuit, the control unit controlling the negative-pressure source so that the pressure in the pneumatic circuit reaches or tends to meet a predetermined negative-pressure setpoint, and an associated method.