CN111457501A - Off-network module - Google Patents

Abstract

The invention provides an ion screen module, which comprises a filter screen box; the ion emitter is provided with a substrate body arranged on the inner cylinder and a plurality of tip parts arranged along the circumferential direction of the substrate, and the tip parts are suspended at an air inlet of the air duct of the filter screen box; the filter sponge is arranged at the air outlet of the air duct of the filter screen box; the filter screen cover is arranged at the air outlet of the filter screen box and is provided with an air outlet structure; and the annular ion screen plate is arranged in the gap between the ion screen module and the cylinder body, and is electrically connected with the ion emitting electrode. The ion screen module provided by the invention can efficiently ionize and kill bacteria and other non-safe carried objects in the air, and simultaneously kill the bacteria and other non-safe carried objects, because of the wind force effect or the existence of killed bacteria and other carried objects, the bacteria and other carried objects are synchronously output to the environment where a user is located, at the moment, the filtering sponge can be used for filtering other impurities in the air, and the air quality of the consumer is influenced by blocking the synchronous release equipment of the killed bacteria and other carried objects.

Description

Off-network module

Technical Field

The invention relates to the technical field of air purification, in particular to an off-network module.

Background

The problems of too oppressive rooms, large air dust and the like easily occur in indoor spaces, the air has more bacteria and higher air static electricity, and the problems of unconcentration, easy dozing in meetings and the like easily occur in the environments such as offices and the like.

The traditional filtering mode can not effectively carry out air sterilization effect on the air.

Disclosure of Invention

The invention aims to provide an off-network module which can sterilize and deodorize air.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows: an ion grid module, comprising:

the filter screen box is provided with an annular filter screen shell and an inner cylinder which is supported at the air inlet end of the filter screen box through a plurality of annular supporting sheets, and a filter screen box air channel is arranged between the annular filter screen shell and the inner cylinder;

the ion emitter is provided with a substrate body arranged on the inner cylinder and a plurality of tip parts arranged along the circumferential direction of the substrate, and the tip parts are suspended at an air inlet of the air duct of the filter screen box;

the conductive filter body is matched with the ion emitting electrode and is arranged at the air outlet of the air duct of the filter screen box;

the filter screen cover is arranged at the air outlet of the filter screen box and is provided with an air outlet structure;

and the annular ion screen plate is arranged in a gap between the ion net module and the cylinder body, and is electrically connected with the ion emitting electrode and the conductive filter body.

From the above, it can be seen that the ion screen module provided by the invention efficiently ionizes and kills the non-safety carried objects such as bacteria in the air, and synchronously outputs the non-safety carried objects such as bacteria to the environment where the user is located due to the wind force or the existence of killed bacteria, and at the same time, the filter sponge can be used for filtering other impurities in the air, and also can prevent the killed bacteria and other carried objects from synchronously releasing equipment to influence the air quality of the consumer.

The conductive filter body may be an annular body, and an active substance may be embedded in the conductive filter body to further process air, including but not limited to activated carbon, and other materials such as perfume.

The tip part mentioned in the off-network module provided by the invention is triangular, the triangular tip structure is more beneficial to realizing air ionization and killing bacteria, and the isosceles triangle has an external structure which is convenient to punch and has more economic cost.

The tip end of the ion network module is arranged at the position of the adjacent gap of each support sheet in radial distribution, and the radial gap structure belongs to the first gateway of the incoming wind, so that the air limited in the radial gap is quickly subjected to ionization sterilization through the tip end, and compared with the non-radial gap, the radial gap has the effect of certain air input partition through the support sheets, and the ionization sterilization efficiency is more efficient.

The invention provides an ion screen module in which the annular ion screen plate is connected to the filter screen box by a rigid Z-shaped conductive member, wherein the Z-shaped conductive member includes but is not limited to a metal body, the Z-shaped conductive piece not only can play a role in supporting the annular off-grid plate, but also can play a role in playing an electrical connection piece, so that the problems of complication of the internal result of the cylinder and high processing cost are avoided, the substrate of the ion emitting electrode is connected with at least one rigid Z-shaped conductive piece, due to the existence of the radial gaps, the spokes (support pieces) of the radial gaps can be used as a wiring carrier of the Z-shaped conductive piece to be communicated with the substrate, the base plate is provided with a plurality of fixing holes, the edge of the base plate is provided with a metal external metal strip, the metal external metal strip is provided with a sleeving ring, and the metal external metal strip is arranged along the spoke, so that risks such as breakage caused by external force are avoided.

The inner cylinder of the filter screen box in the off-network module provided by the invention adopts a sinking structure at the annular support sheet, so that the problem that the tip part is deformed due to external extrusion can be effectively solved, the sinking structure can lead spokes (support sheets) to realize air partition and flow guide in an ionization region of the tip part in advance, and the spokes, the inner cylinder and the filter screen box can be integrally formed, including but not limited to plastic injection molding.

The conductive filter in the off-net network module provided by the invention is connected with the grounding end of the ion net plate through the bullet column structure.

In the ion network module provided by the invention, the ion network module is an integral module, so that the stability and the reliability of product supply are ensured while the ion network module is convenient for modularized assembly.

Drawings

Fig. 1 is a perspective view of an ion beam network module.

Fig. 2 is a perspective view of the ion beam network module.

Fig. 3 is a perspective view of an ion emitter.

Fig. 4 is a cross-sectional view of an ion beam module.

Fig. 5 is an effect diagram of the spring post hold-down screw pressed on the spring post, which shows a partial effect diagram of the installation of the off-network module.

Detailed Description

The technical solution adopted by the present invention will be further explained with reference to the schematic drawings.

Referring to fig. 1-5, an ion grid module 7, electrically connected to a power supply module, includes: a filter screen box 7a, an ion emitter 7b, a conductive filter body 7c matched with the ion emitter, a filter screen cover 7d and a ring-shaped ion screen plate 7e, wherein the conductive filter body comprises but is not limited to a conductive sponge. The filter screen box 7a is provided with an annular filter screen shell 7a-1 and an inner cylinder 7a-3 supported at the wind inlet end of the filter screen box through a plurality of annular supporting sheets 7a-2, a filter screen box air duct 7a-4 is arranged between the annular filter screen shell and the inner cylinder, and the filter screen box is used as a supporting structure of the whole off-network module. The ion emitter 7b is provided with a substrate body arranged on the inner cylinder and a plurality of tip parts 7b-1 arranged along the circumferential direction of the substrate, wherein the radial gap is eighteen, the tip parts are also eighteen in number, the tip parts are suspended at the air inlet of the air duct of the filter screen box, when air is conveyed to the position, ionization sterilization can be carried out by the tip parts, the filter sponge 7c is arranged at the air outlet of the air duct of the filter screen box, not only can impurities in the air be filtered, but also killed bacteria and the like in the air can be effectively adsorbed, the filter screen cover 7d is arranged at the air outlet of the filter screen box, the filter screen cover is provided with an air outlet structure, the filter screen cover adopts a grid-shaped structure, the annular ion screen plate 7e is arranged in the gap between the ion screen module and the cylinder, and the annular ion screen plate is electrically connected with.

The tip of off-network module is triangle-shaped, and the tip structure of triangle-shaped more does benefit to and realizes that air ionization kills the bacterium, and isosceles triangle's external structure makes things convenient for the punching press and the cost is more economical. The tip portion arranges in the adjacent clearance department of each radial support piece that distributes, because radial clearance structure belongs to the first pass gate of incoming wind, here will be injectd the air in radial clearance through the tip portion is quick and carry out the ionization sterilization, compare in non-radial clearance, radial clearance has played certain air input subregion's effect through the support piece, and the ionization sterilization efficiency is more high-efficient.

The annular ion net plate 7e is connected to the filter screen box through a rigid Z-shaped conductive piece 8, the Z-shaped conductive piece includes but is not limited to metal body, the Z-shaped conductive piece not only can play a role of supporting the annular ion net plate, but also can play a role of an electrical connecting piece, and avoids the complication of the internal result of the cylinder and the high problem of the processing cost, the substrate of the ion emitting electrode 7b is connected with at least one rigid Z-shaped conductive piece, because of the existence of the radial gap, the spoke supporting piece of the radial gap can be used as a routing carrier of the Z-shaped conductive piece to be connected with the substrate, the substrate is provided with a plurality of fixing holes 7b-2, the edge of the substrate is provided with a metal external metal strip 7b-3, the metal external metal strip is provided with a sleeving ring 7b-4, and the metal external metal strip is, avoid the risk of fracture and the like caused by external force.

The inner cylinder of the filter screen box 7a adopts a sinking type structure at the annular supporting sheet 7a-2, so that the problem that the tip part is deformed due to external extrusion can be effectively prevented, the sinking type structure can lead the spoke supporting sheet to realize air partition and flow guide in an ionization area of the tip part in advance, and spokes, the inner cylinder and the filter screen box can be integrally formed, including but not limited to plastic injection molding.

Referring to fig. 4, the conductive filter 7c (i.e., conductive sponge) of the off-net module is connected to the ground of the ion trap plate through a spring column structure 7f, specifically, the spring column structure includes: a conductive spring 7f-1 fixed on the filter cover 7d by screws, a spring post 7f-2 pressed on the upper part of the conductive spring, an axial convex column arranged at the lower end of the spring post, the outer diameter of the axial convex column is smaller than that of the spring post, the conductive spring can be positioned at the position of the axial convex column, in combination with fig. 5, as a spring post pressing screw 7f-3 is arranged in a base body 2 (the base body is the base of the air purification product where the ion net module is installed), the spring post can be pressed down to keep the electrical connection, it is worth mentioning that one end of a rigid Z-shaped conductive piece 8 is sleeved on the spring post pressing screw 7f-3, the other end of the rigid Z-shaped conductive piece is fixed on the grounding end of the ion net plate by screws, the conductive spring 7f-1 is fixed on the filter cover 7d by screws, the conductive filter body is directly contacted with the filter cover 7d (such as a metal filter cover) made of conductive material, thereby realizing the electrical connection process of the conductive sponge and the grounding end of the ion mesh plate. The filter cartridge is provided with a mounting hole for the pin-like structure, so that the pin-like structure is seated at the mounting hole.

In the embodiment, two rigid Z-shaped conductive members 8 are selected as the grounding part to be connected to the conductive sponge, one rigid Z-shaped conductive member 8 is used to be connected to the ion emitter 7b, one end of each of the two grounded rigid Z-shaped conductive members 8 is fixed to the annular ion trap 7e by a screw, the other end of each of the two grounded rigid Z-shaped conductive members 8 is fixed to a spring column pressing screw 7f-3 by a spring column pressing screw 7f-3, and the spring column pressing screw 7f-3 is electrically connected to a spring column. The rigid Z-shaped conductive piece 8 for connecting to the high-voltage part is slightly different from the structure, namely, a conductive spring and other structures are not required to be placed below the spring column pressing screw 7f-3, and only the sleeving ring 7b-4 of the ion emitting electrode 7b is required to be sleeved on the spring column pressing screw 7f-3, so that the connection with the high-voltage end of the annular ion net plate is realized.

In the invention, a power supply plate of the power supply module is connected to a 220V power supply, and the power supply plate is connected to the annular ion screen plate 7e of the off-network module.

The working principle of the invention is as follows: the air enters the radial gap inlet of the ion net module to enable the tip part to be subjected to ionization sterilization, the air subjected to ionization sterilization is further subjected to air filtration through the filter sponge, and finally the air is released from the grid outlet of the bottom cover of the ion net module.

The above description is only a preferred embodiment of the present invention, and does not limit the present invention in any way. It will be understood by those skilled in the art that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. An ion grid module, comprising:

the filter screen box is provided with an annular filter screen shell and an inner cylinder which is supported at the air inlet end of the filter screen box through a plurality of annular supporting sheets, and a filter screen box air channel is arranged between the annular filter screen shell and the inner cylinder;

the ion emitter is provided with a substrate body arranged on the inner cylinder and a plurality of tip parts arranged along the circumferential direction of the substrate, and the tip parts are suspended at an air inlet of the air duct of the filter screen box;

the conductive filter body is matched with the ion emitting electrode and is arranged at the air outlet of the air duct of the filter screen box;

the filter screen cover is arranged at the air outlet of the filter screen box and is provided with an air outlet structure;

and the annular ion screen plate is arranged in a gap between the ion screen module and the cylinder body, and is electrically connected with the ion emitting electrode and the conductive filter body.

2. The iontophoretic module of claim 1, wherein the tip portion is triangular in shape.

3. The iontophoretic module of claim 1, wherein the tip portion is disposed adjacent to each radially disposed support piece at a gap.

4. The ion grid module of claim 1, wherein the annular ion grid plate is connected to the screen box by rigid Z-shaped conductive members, and the ion emitter substrate is connected to at least one of the rigid Z-shaped conductive members.

5. The ion screen module of claim 1, wherein the inner cylinder of the screen cartridge is of a sunken configuration at the annular support plate.

6. The Ionic grid module according to claim 1, characterized in that the substrate is provided with fixing holes, the edge of the substrate is provided with a metal circumscribing metal strip, and the metal circumscribing metal strip is provided with a collar.

7. The ion mesh module according to claim 1, wherein the conductive type filter is connected to a ground terminal of the ion mesh plate by a spring column structure.

8. The Ionic network module according to any of claims 1-7, characterized in that the Ionic network module is an integral module.

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