Apparatus to neutralize static electricity present on the surface of containers (100; 10′) and/or of nests (200; 300) comprising a plurality of seatings (212; 312) according to a positioning matrix (M1) and able to receive, resting on them, an ordered group of said containers (100; 100), wherein the apparatus comprises an extraction member (15) configured to engage at least one part of said ordered group of containers (100; 100′), in order to perform at least one relative lifting movement with respect to the nest (200; 300) so as to at least partly extract the containers (100; 100′) engaged from the respective seatings (212; 312), and at least one ionizing device (19) configured to be relatively mobile with respect to the extracted containers and/or with respect to the nest (200; 300), while said group of containers (100; 100′) extracted is in said raised condition, along a path that develops in the proximity of the containers (100; 100′) extracted and/or in the proximity of said nest (200; 300), so as to ionize the surrounding space and neutralize static electricity present on the surface of the containers (100; 100′) in the raised condition and/or of the nest (200; 300).

Apparatus to neutralize static electricity present on the surface of containers (100; 10′) and/or of nests (200; 300) comprising a plurality of seatings (212; 312) according to a positioning matrix (M1) and able to receive, resting on them, an ordered group of said containers (100; 100), wherein the apparatus comprises an extraction member (15) configured to engage at least one part of said ordered group of containers (100; 100′), in order to perform at least one relative lifting movement with respect to the nest (200; 300) so as to at least partly extract the containers (100; 100′) engaged from the respective seatings (212; 312), and at least one ionizing device (19) configured to be relatively mobile with respect to the extracted containers and/or with respect to the nest (200; 300), while said group of containers (100; 100′) extracted is in said raised condition, along a path that develops in the proximity of the containers (100; 100′) extracted and/or in the proximity of said nest (200; 300), so as to ionize the surrounding space and neutralize static electricity present on the surface of the containers (100; 100′) in the raised condition and/or of the nest (200; 300).

A non-heating, non-combustion type flavor inhaler including a supply flow path unit including a first flow path leading aerosol toward a user side and a suction port, a liquid holding unit accommodating an aerosol base, a second flow path having one end communicating with the liquid holding unit and the other end which is located in the supply flow path unit and is opened toward the suction port side, and having a conductive portion, a liquid feeding system feeding the aerosol base, a power supply and a control unit applying a voltage to the conductive portion, to atomize the aerosol base and to eject the aerosol from an opening of the other end, and a static elimination unit neutralizing charge of the aerosol ejected from the opening.

A non-heating, non-combustion type flavor inhaler including a supply flow path unit including a first flow path leading aerosol toward a user side and a suction port, a liquid holding unit accommodating an aerosol base, a second flow path having one end communicating with the liquid holding unit and the other end which is located in the supply flow path unit and is opened toward the suction port side, and having a conductive portion, a liquid feeding system feeding the aerosol base, a power supply and a control unit applying a voltage to the conductive portion, to atomize the aerosol base and to eject the aerosol from an opening of the other end, and a static elimination unit neutralizing charge of the aerosol ejected from the opening.

Device for protection against electric and/or magnetic fields, in particular electromagnetic fields, comprising a switch and a field coupled with the switch, wherein the switch has at least two protection elements, wherein a protection element comprises at least one film capacitor and at least one diode. The switch emits nature-like wave packets, generated by the diodes and capacitors by spontaneous discharges into the environment and the electric field of the power line, whereby the signals correspond to the electric discharges of AIS. A method for operating such a device is also provided.

Device for protection against electric and/or magnetic fields, in particular electromagnetic fields, comprising a switch and a field coupled with the switch, wherein the switch has at least two protection elements, wherein a protection element comprises at least one film capacitor and at least one diode. The switch emits nature-like wave packets, generated by the diodes and capacitors by spontaneous discharges into the environment and the electric field of the power line, whereby the signals correspond to the electric discharges of AIS. A method for operating such a device is also provided.

The present disclosure provides an ion-bar structure with a self-cleaning function including an ion-bar body, a slide assembly, and a brush assembly. The ion-bar body has a slide track disposed along its own axis. The slide assembly is movably disposed on the slide track. The brush assembly is connected to the slide assembly for moving with the slide assembly. The brush assembly is contacted with a bottom side of the ion-bar body.

The present disclosure provides an ion-bar structure with a self-cleaning function including an ion-bar body, a slide assembly, and a brush assembly. The ion-bar body has a slide track disposed along its own axis. The slide assembly is movably disposed on the slide track. The brush assembly is connected to the slide assembly for moving with the slide assembly. The brush assembly is contacted with a bottom side of the ion-bar body.

Provided is a soft X-ray static electricity removal apparatus that has achieved an increase in the amount of ionized air discharged, with a simple structure. A soft X-ray static electricity removal apparatus (1) includes a soft X-ray generation device (90), a container (10), a soft X-ray shielding sheet (20), and an insulating layer (50). The soft X-ray generation device generates soft X-rays (92). The container (10) has an outlet (12) from which ionized air (100) that has been ionized with the soft X-rays flows out. The soft X-ray shielding sheet (20) is used at the outlet of the container and includes a first outer sheet (30), an interlayer sheet (34), and a second outer sheet (40) which are formed of a material opaque to the soft X-rays. The first outer sheet has supply ports (32) for the ionized air formed therein; the interlayer sheet has an ionized air passage (38) formed therein, which includes ionized air inlet openings (36) that communicate with the supply ports; and the second outer sheet has a discharge port (42) formed therein, which communicates with the ionized air passage. The supply ports, the ionized air passage, and the discharge port communicate with each other to provide an ionized air transmission portion (44). The insulating layer insulates the soft X-ray shielding sheet and the container from each other.

Provided is a soft X-ray static electricity removal apparatus that has achieved an increase in the amount of ionized air discharged, with a simple structure. A soft X-ray static electricity removal apparatus (1) includes a soft X-ray generation device (90), a container (10), a soft X-ray shielding sheet (20), and an insulating layer (50). The soft X-ray generation device generates soft X-rays (92). The container (10) has an outlet (12) from which ionized air (100) that has been ionized with the soft X-rays flows out. The soft X-ray shielding sheet (20) is used at the outlet of the container and includes a first outer sheet (30), an interlayer sheet (34), and a second outer sheet (40) which are formed of a material opaque to the soft X-rays. The first outer sheet has supply ports (32) for the ionized air formed therein; the interlayer sheet has an ionized air passage (38) formed therein, which includes ionized air inlet openings (36) that communicate with the supply ports; and the second outer sheet has a discharge port (42) formed therein, which communicates with the ionized air passage. The supply ports, the ionized air passage, and the discharge port communicate with each other to provide an ionized air transmission portion (44). The insulating layer insulates the soft X-ray shielding sheet and the container from each other.