PL210246B1 - Chamber of ionization - Google Patents

Description

The subject of the invention is an ionization chamber for the production of negative ions in the air.

An ionizer containing a heated cathode and an anode is known from the patent description No. PL 169 029.

There is also known from the Polish patent specification No. 207 603 an ionizer in which the heated cathode with the leads is located in the anode tube. On the left and right side of the heated cathode there are disc shields with holes galvanically connected to the anode. The anode and heated cathode with shields eliminating electric field disturbances constitute an ionization chamber in which thermo-emission electrons combine with water vapor contained in the flowing air, creating negative ions.

The ionization chamber according to the invention comprises a tubular anode and a heated cathode with leads arranged therein, and sheaths galvanically connected to the anode on both sides of the heated cathode. The left shells and the right shells are electrically conductive pipe sections with different cross-sections, including the heated cathode and the leads. The larger the cross-sections of the left and right shells are, the closer to the center of the heated cathode are the planes formed by the inner left and inner right edges of the left and right shells, respectively.

For technological reasons, it is advantageous to form the anode, left shields and right shields into two identical halves constituting the lower subassembly and the upper subassembly. On the left and right side of the filed cathode, at least one left shield and one right shield are mounted.

The use of shields in the form of pipe sections provides a more laminar air flow and significantly reduces its flow resistance, thanks to which, with the same fan power as in known design solutions, the air flow velocity is higher, which increases the efficiency of the ionization chamber. The gradation of the length of the shields depending on the cross-section advantageously shapes the spatial distribution of the electric field.

The subject of the invention in the exemplary embodiments is shown in the drawing, in which Fig. 1 shows a perspective view of the ionization chamber, Fig. 2 - an exploded perspective view of the ionization chamber structure with two identical halves including anode and sheaths.

P r z k ł a d I

In the round tube constituting the anode 1 there are placed the heated cathode 2 with the leads 3, and three left sheaths 4 and right sheaths 5, constituting electrically conductive segments of round pipes with different cross-sections and covering the heated cathode 2 with the leads 3. Left sheath 4 and the sheath the right 5 with the largest cross-sections have planes formed by their left inner 6 edges and the right inner 7 edges closest to the center of the heated cathode 2. The left hand casing 4 and the right hand casing 5 with the smallest cross-sections have planes formed by their left internal 6 and internal edges right-hand 7 located farthest from the center of the heated cathode 2. Left-hand shields 4 and right-hand shields 5 are connected to anode 1 by a left-hand connector 8 and a right-hand connector 9, which are attached to a bracket 10 for fixing the ionization chamber in the ionizer housing.

P r z x l a d II

In the round tube constituting the anode 1 there are placed the heated cathode 2 with the leads 3, and three left sheaths 4 and right sheaths 5, constituting electrically conductive segments of round pipes with different cross-sections and covering the heated cathode 2 with the leads 3. Left sheath 4 and the sheath the right 5 with the largest cross-sections have planes formed by their left inner 6 edges and the right inner 7 edges closest to the center of the heated cathode 2. The left hand casing 4 and the right hand casing 5 with the smallest cross-sections have planes formed by their left internal 6 and internal edges right 7 located farthest from the center of the filament cathode 2. Anode 1 and left sheaths 4 and right sheaths 5 are formed in two identical halves constituting the lower subassembly 11 and the upper subassembly 12, in which the anode 1, left sheaths 4 and right sheaths 5 are galvanically connected .

Between the leads 3, the voltage is applied to the heated cathode 2. Between the anode 1 and the heated cathode 2, a high accelerating voltage is applied, emitted into the inter-electrode space, thermo-emission electrons. By combining with particles of water vapor contained in the air, the electrons create negative ions that have a beneficial effect on the climate of the room in which the ionizer is located.

Claims (3)

1. Ionization chamber containing a tube-shaped anode and a heated cathode placed in it with leads, and galvanically connected sheaths with the anode on both sides of the heated cathode, characterized in that the left sheaths (4) and the right sheaths (5) constitute current-conducting sections pipes with different cross-sections, including the heated cathode (2) with the leads (3), the larger the cross-sections of the left (4) and right-hand shells (5), the closer to the center of the heated cathode (2) are the planes formed by internal left edges (6) and internal right edges (7) of the left-hand covers (4) and right-hand covers (5), respectively. 2. The ionization chamber according to claim 2. The anode (1), the left shells (4) and the right shells (5) are formed in two identical halves constituting the lower subassembly (11) and the upper subassembly (12). 3. The ionization chamber according to claim 1 A method according to claim 1 or 2, characterized in that at least one left-hand cover (4) and one right-hand cover (5) are mounted on the left and right side of the filed cathode (2).