CN212467405U - Antibacterial copper filter with antibacterial copper net - Google Patents

Abstract

The utility model relates to an use antibiotic copper filter of antibiotic copper mesh, its configuration makes this filter self have antibiotic and bactericidal function, need not deodorant or electric energy to make deodorization and air purification performance maximize, need not often to change or wash. According to the utility model discloses utilize antibiotic copper filter of antibiotic copper mesh including filter the filter core of the pollutant in the air that the porous structure passes through and for exterminating attached bacterium on the above-mentioned filter core, the bacterial flora, the antibiotic copper auxiliary material that mould and formed, and for rightting the outer frame of telling antibiotic copper auxiliary material outward appearance shape, the gauze that the inboard copper metal of 99% purity or the copper alloy copper silk thread of more than 60% content of above-mentioned outer frame made constitutes for characteristics.

Description

Antibacterial copper filter with antibacterial copper net

Technical Field

The utility model relates to an antibiotic copper filter with antibiotic copper mesh, this antibiotic copper filter can eliminate (get rid of) and arouse mould, bacterium, the fungus of smell in the antibiotic filter that is arranged in air cycle devices such as cold warm air conditioner and air purifier.

Background

Air filters for filtering harmful substances in air are generally used in air circulation devices such as cooling and heating air conditioners, air cleaners, and total heat exchangers.

With the progress of air pollution, the supply of clean air into a room has become an important issue, and in view of the reality, a technology has been developed in recent years in which various filters are provided inside an air conditioning system to remove pollutants such as fine dust particles, odors, and bacteria present in the air.

In the case of a specific Air conditioning system, a prefilter, an activated carbon Filter, a High Efficiency Air Filter (High Efficiency Particulate Air Filter), a vacuum cleaner, and the like are provided in the Air conditioning system and used to remove contaminants such as the fine particles, odor, and bacteria, but in the case of an Air conditioning system provided with the activated carbon Filter, the contaminants such as the fine particles, odor, and bacteria are captured only by a Filter that is a specific medium, rather than being permanently removed, and thus the Efficiency is reduced after a predetermined time.

In particular, when the dewing phenomenon occurs, mold is formed in the filter due to moisture, which not only becomes a hotbed of odor and bacteria, but also causes an offensive odor, thus causing a trouble of requiring replacement or cleaning of the filter, and when a deodorant is used for antibacterial and deodorization at the time of cleaning, controversy has arisen that chemicals are harmful to the human body.

As a related known art, korean laid-open patent publication No. 2002-, also, korean patent laid-open publication No. 1622200 discloses a photocatalyst filter unit in which a plurality of photocatalyst filters for purifying contaminated air flowing from an inlet to an outlet are mounted, and the contact area between the contaminated air and the photocatalyst filters is secured to the maximum to improve the purification efficiency.

The various filters for filtering air as described above are not only expensive but also require regular replacement of the filter for use, and when using electric power, not only are energy consumption accompanied, but also the structure of the filter needs to be changed to conform to the structure of the device.

Documents of the prior art

Korean laid-open patent publication No. 10-2002-0059297

Korean laid-open patent publication No. 10-2001-

Korean authorized utility model gazette 20-0239591

Korean granted patent gazette No. 10-1622200

SUMMERY OF THE UTILITY MODEL

Technical problem

The utility model relates to a solve the various problems that exist among the above-mentioned prior art and created new technique, its aim at provides an antibiotic copper filter with antibiotic copper net, does not use deodorant or electric energy, and its structure gives antibiotic and sterilization function to filter itself, and, thereby does not need frequent change or washing, makes and removes flavor and air purification function maximize.

And, it is another object to provide an antibacterial copper filter having a structure that can be conveniently applied to an existing filter structure, thereby not requiring a change in the filter structure or an increase in energy consumption.

Means for solving the problems

As a specific technical means for solving the above-mentioned problems, there is provided an antibacterial copper filter using an antibacterial copper mesh, comprising: a filter element for filtering pollutants in the air passing through the porous structure; the antibacterial copper component has antibacterial and bactericidal effects and is used for killing bacteria, bacteria and mold of the filter element, wherein the antibacterial copper component is provided with a supporting frame for keeping the shape, a reticular body formed by copper wires is formed on the inner side of the supporting frame, and the copper wires are composed of metal copper with the purity of more than 99% or copper alloy with the copper content of more than 60%.

The filter element is characterized in that the size of the antibacterial copper member is the same as that of the filter element, and the support frame of the antibacterial copper member is used by being adhered to one surface or both surfaces of the edge casing of the filter element, thereby forming a stand-alone structure.

Further, the filter element is characterized in that an assembly groove is provided inside the case of the filter element, and a support frame of the antibacterial copper member is inserted into the assembly groove to form a structure in which the antibacterial copper member is assembled on one surface or both surfaces of the filter element, thereby forming a one-surface-integrated or two-surface-integrated structure.

The filter is provided with a pair of filter elements, and an antibacterial copper member is inserted between the filter elements to form an integrated insertion structure.

The filter element is characterized in that the antibacterial copper member is integrally bonded to one or both surfaces of the filter element to form wrinkles, thereby forming a one-surface bonding type or two-surface bonding type structure.

And, the mesh body of the antibacterial copper member is characterized in that the fine strands are formed inside the support frame as a lattice type composed of horizontal or vertical binding wires and inserting wires woven in a zigzag shape between the binding wires, the inserting wires being wound with a copper tape from an outer circumferential surface.

The mesh body of the antibacterial copper member is formed by forming copper wires composed of only metallic copper or copper alloy into copper warp wires and copper weft wires inside the support frame, and the copper warp wires and the copper weft wires are crossed with each other to form a lattice shape.

Effect of the utility model

According to the utility model discloses an antibiotic copper filter with antibiotic copper mesh, the antibiotic copper component adhesion that will be formed by net type dictyosome or net type dictyosome in the filter core or form an organic whole with the filter core to eliminate effectively and get rid of the fungus that produces in the filter core through permanent and lasting antibacterial action, bacterium, mould etc. have the deodorization effect of getting rid of the peculiar smell that arouses by mould simultaneously, wherein, net type dictyosome is made by the copper strips that the metallic copper or copper content that use the purity to be more than 99% are the copper alloy formation more than 60%, net type dictyosome is made by the copper wire.

Moreover, the utility model discloses owing to do not need to use chemical substance or electric energy, reduce the maintenance cost, consequently very economical.

And, the utility model discloses the current filter core is conveniently applied to along with performance and life's increase and improve the quality of filter core.

Drawings

Fig. 1 is a perspective view illustrating an antibacterial copper filter using an antibacterial copper mesh according to an embodiment of the present invention.

Fig. 2 is a perspective view illustrating an antibacterial copper member of an antibacterial copper filter using an antibacterial copper mesh according to another embodiment of the present invention.

Fig. 3 is an enlarged view of the antimicrobial copper component of fig. 2.

Fig. 4 to 6 are side sectional views showing the use states of various embodiments of the antibacterial copper filter with the antibacterial copper mesh according to the present invention.

Fig. 7 to 8 are reports of experimental results of the antibacterial copper filter using the antibacterial copper mesh according to the present invention.

Detailed Description

The present invention will be described in detail below with reference to specific embodiments shown in the drawings. The following drawings of the structural embodiments according to the present invention are examples for specifically explaining the structure and the operational effects, and the technical scope of the present invention is not limited or changed thereby. Therefore, it is obvious to those skilled in the art that various modifications can be made based on the embodiments within the scope of the technical idea of the present invention.

Fig. 1 is a perspective view illustrating an antibacterial copper filter using an antibacterial copper mesh according to an embodiment of the present invention.

According to the utility model discloses an antibiotic copper filter with antibiotic copper mesh includes: a filter element 1 for filtering pollutants in air passing through the porous structure; and an antibacterial copper member 2 adhered to one or both sides of the filter element 1 and having antibacterial and bactericidal effects to sterilize bacteria, mold, and mildew.

The filter element 1 is formed of a nonwoven fabric material having a porous structure in a corrugated shape, and is generally used as an air filter for filtering dust.

The antibacterial copper member 2 is provided with a support frame 10 for maintaining the shape, and a mesh body 20 formed of copper wires 21 is formed inside the support frame 10, and the copper wires 21 perform antibacterial and bactericidal actions on the air passing through the filter element 1 to destroy bacteria, bacteria and mold in the air.

The copper wires 21 forming the mesh-like body 20 are composed of metallic copper having a purity of 99% or more or copper alloy wires having a copper content of 60% or less, and are formed in a mesh shape to improve air permeability.

Among them, it is known that in the case of metal Copper having a purity of 99% or more or a Copper compound having a Copper content of 60% or more, it is possible to effectively prevent infectious diseases having a risk of cross contamination or the like due to natural antibacterial properties of Copper itself, and in order to emphasize the natural antibacterial properties of Copper, metal Copper having a purity of 99% or more or a Copper compound having a Copper content of 60% or more is called antibacterial Copper (antibacterial Copper).

The antibacterial Copper (antibacterial Copper) as described above, as a unique touch surface material registered in the Environmental protection Agency (Environmental protection Agency) in the united states, can eliminate 99.9% or more of bacteria causing health-care related Infections (Healthcare-Associated Infections) within 2 hours.

On the other hand, the mesh body 20 combined with the copper wires 21 constituting the antibacterial copper member 2 may be formed in a mesh type 30 or a mesh type 40 in order to improve air permeability and increase lightweight and contact area.

First, referring to fig. 2 and 3, the mesh type 30 is formed by weaving the bonding wires 31 and the insert wires 32 at the inner side of the support frame 10, and the insert wires are woven in a zigzag, i.e., zigzag, shape between the adjacent bonding wires 31 among the plurality of bonding wires 31 arranged side by side in a horizontal or vertical manner to form the through holes.

The insert filaments 32 are configured in such a manner that copper strips 21-1 having a thin thickness, a narrow width and a long length are wound around the outer circumferential surface of the fine strands to form the mesh-like body 20 of the mesh type 30.

The coupling structure of the antibacterial copper member 2 and the filter cartridge 1, which is constructed in a mesh type or a lattice type at the inner side of the support frame 10, may be implemented in various ways as follows.

-independent form A

Referring to fig. 4, the antibacterial copper member 2 having the mesh type 30 or the mesh type 40 inside the support frame 10 is previously manufactured as a separate type a member so that it can be simply attached to one surface of the conventional filter element 1 for use.

That is, one surface of the support frame 10 can be adhered to one surface or both surfaces of the edge case 1a of the filter cartridge 1 at the time of adhesion, and can be easily used, thereby constituting the filter cartridge in various ways according to the standardized size of the conventional filter cartridge 1, and improving the interchangeability of products.

-integral B

Referring to fig. 5, an assembly groove 1B is provided inside an edge case 1a of a filter cartridge 1, and in a manufacturing process of the filter cartridge 1, a one-side integrated B-1 or a two-side integrated B-2 structure in which an antibacterial copper member 2 is inserted into one side or both sides of the filter cartridge 1 is manufactured to maximize convenience of use and quality of the filter cartridge.

When the antibacterial copper member 2 and the filter element are integrally manufactured, a pair of filter elements are provided so as to have a double structure, and an insert-and-integrate type (B-3) structure in which the antibacterial copper member is inserted between the pair of filter elements can be configured.

On the other hand, referring to fig. 6, before forming wrinkles of the filter element 1, the antibacterial copper member 2 is integrally bonded to one surface or both surfaces of the filter element 1, and then the wrinkles are formed, thereby forming a one-surface adhesive type B-4 or a two-surface adhesive type B-5. Thereby, the antibacterial and bactericidal effects can be further improved.

In this case, it is preferable that the antibacterial copper member 2 woven into the mesh type 30 or the mesh type 40 is bonded on the non-woven fabric forming the filter element 1 without the support frame 10 having the edge.

According to the antibacterial copper filter using the antibacterial copper mesh of the present invention configured as described above, when the mesh-type 30 or mesh-type 40 antibacterial copper member 2 woven with the copper wire 21 is provided on one or both sides of the outer side of the filter element 1, the copper wire 21 formed of the metal copper having the purity of 99% or more or the copper alloy having the copper content of 60% or more is in contact with the air on the surface of the filter element 1, and then various bacteria, molds, and the like which may be parasitized and propagated on the filter element can be effectively eliminated and removed due to the antibacterial property of the copper itself.

That is, bacteria, mold, etc. in the air passing through the filter cartridge 1 are effectively destroyed and removed by the permanent and continuous antibacterial action of the antibacterial copper member 2 without using a deodorant or electric energy, thereby having an effect of eliminating odor caused by the mold, which may be generated in the filter, while preventing parasitic reproduction of the bacteria, so that it is possible to prevent various diseases and provide fresh air.

Fig. 7 to 8 are reports of experimental results of performance of the antibacterial copper filter using the antibacterial copper mesh according to the present invention obtained by committing to FITI test research institute.

The FITI research institute, as a research institute for detecting the quality of industrial and environmental materials, is right to the utility model discloses an antibacterial copper component has been proved to have the effect of sterilization, bacterium, mould in the experimental result report of antibacterial test.

Therefore, according to the utility model discloses an antibacterial copper filter with antibacterial copper net, when the utility model discloses an antibacterial copper filter is when being used as cold warm air conditioner and air purifier's filter, because the antibacterial copper that is formed by copper metal or copper alloy that antibiotic and bactericidal ability are excellent is as the main material, consequently need not to use chemical also can eliminate mould, the bacterium that produces in the filter to get rid of the smell, and make the function and the life-span of filter obtain the maximize.

As described above, in the detailed description of the present invention, although the most preferable embodiment of the present invention has been described, various modifications can be made without departing from the technical scope of the present invention, and therefore the scope of the present invention is not limited to the above-described embodiment, and the contents of the claims and the technical means equivalent thereto should be regarded as the scope of the present invention.

Industrial applicability

The utility model provides an antibiotic copper filter not only is applicable to the various air conditioning equipment of family and industrial field to provide lasting antibacterial action and deodorization effect, consequently, the serious current stage of air pollution who arouses now because of the haze, the effect that acts on the industry is very big.

Claims (7)

1. An antibacterial copper filter with an antibacterial copper mesh, comprising: a filter element (1) for filtering pollutants in the air passing through the porous structure; the antibacterial copper component (2) has antibacterial and bactericidal effects and is used for killing bacteria, bacteria and molds of the filter element (1), wherein the antibacterial copper component (2) is provided with a supporting frame (10) used for keeping the shape, a reticular body (20) formed by copper wires (21) is formed on the inner side of the supporting frame (10), and the copper wires (21) are composed of metal copper with the purity of more than 99% or copper alloy with the copper content of more than 60%.

2. The filter of claim 1, wherein the size of the antibacterial copper member (2) is the same as that of the filter element (1), and the supporting frame (10) of the antibacterial copper member (2) is used by being adhered to one surface or both surfaces of the edge case (1a) of the filter element (1) to constitute a separate type (a) structure.

3. The filter of claim 1, wherein an assembly groove (1B) is formed inside the edge case (1a) of the filter element (1), and a support frame (10) of the antibacterial copper member (2) is inserted into the assembly groove (1B) to form a structure in which the antibacterial copper member (2) is assembled to one or both surfaces of the filter element (1), thereby forming a one-surface-integrated type (B-1) or two-surface-integrated type (B-2) structure.

4. The filter of claim 1, wherein a pair of filter elements (1) are provided, and an antibacterial copper member is inserted between the filter elements (1) to form an insert-integrated type (B-3) structure.

5. The antibacterial copper filter using antibacterial copper mesh according to claim 1, wherein the antibacterial copper member (2) is integrally bonded to one or both sides of the filter element (1) to form wrinkles, thereby constituting a one-sided adhesive type (B-4) or two-sided adhesive type (B-5) structure.

6. The antibacterial copper filter with antibacterial copper mesh according to any one of claims 1 to 5, characterized in that the mesh body (20) binding the copper wires (21) is formed by weaving binder wires (31) and insert wires (32) at the inner side of the support frame (10), the insert wires (32) are woven in zigzag, i.e., zigzag, between adjacent binder wires (31) among a plurality of binder wires (31) side by side in a horizontal or vertical manner, and copper tapes (21-1) having a thin thickness, a narrow width, and a long length are wound on the outer circumferential surfaces of the fine strands of the insert wires (32).

7. The antibacterial copper filter with antibacterial copper mesh according to any one of claims 1 to 5, characterized in that the mesh body (20) of the antibacterial copper member (2) is formed by forming copper wires (21) composed of only metallic copper or copper alloy into copper warp filaments (21-2) and copper weft filaments (21-3) inside the support frame (10), the copper warp filaments (21-2) and the copper weft filaments (21-3) being crossed with each other to form a mesh type (40).

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