KR101168305B1 - Office supples equipment gas-filter manufacture method - Google Patents

Abstract

The present invention provides a method of manufacturing a gas filter for office equipment,
The web WEB made of fabric is stacked up and down, and the activated carbon is fixed between the webs WEB to use coconut shell base particles as particles of the activated carbon, forming a unit weight of 170 to 400 g / m 2 for the area. It contains 40 to 70% by weight of activated carbon, and has a thickness of 1.1 to 2.15 mm, permeability (l / 100cm ² x min) of 595 to 1105, and pressure drop (Pa) of 67 to 124. Nonwoven fabric manufacturing process; A bending process of folding the nonwoven fabric formed in the nonwoven fabric manufacturing process into a plurality of wrinkles to form a media; Cutting the nonwoven fabric into media, and then cutting a media of the media; Bonding the band-shaped frame to both side surfaces of the media after the media of the media is cut; A frame cutting step of manufacturing an element by cutting the media of the frame attached to the media; It characterized by consisting of the assembly step of forming a gas filter by inserting the element made in the frame cutting process into a case of the rectangular window shape,
It is installed at one side of the blower fan installed in office equipment to filter the polluted air flowing into the room, cleans the indoor air, purifies the indoor air, and maintains the room in a comfortable environment. The method of manufacturing a gas filter for office equipment having the effect of improving the health of workers by preventing diseases such as respiratory diseases and lung diseases of workers using office equipment by blocking the polluted air of the office equipment and the gas produced using the same It is about a filter.

Description

Manufacturing method of gas filter for office equipment {OFFICE SUPPLES EQUIPMENT GAS-FILTER MANUFACTURE METHOD}

The present invention relates to a method of manufacturing a gas filter for office equipment, and connected to a blowing fan for various office equipment used in the office, such as a computer, a printer, a fax machine, a copier, to filter the air discharged to break the air inside the office. It relates to a method for manufacturing a gas filter for office equipment to keep clean and clean.

In general, office equipment is a device used in an office space for business, and recently, computers, copiers, printers, fax machines, etc. are mainly used.

In addition, since these office equipments generate heat from the office equipment during the operation, there is a risk of malfunction when the office equipment generates excessive heat. Therefore, a method of cooling the heat using an air circulation fan has been applied. The disadvantage was the main culprit of contamination.

In other words, during the operation of the office equipment, the air inside the office equipment is discharged to the outside and heat is dissipated to the outside by the blowing fan installed to cool the generated heat generated by the devices installed inside the office equipment. The air passing through the device inside the office equipment is released including a large number of pollutants.

Therefore, due to the operation of the blower fan generated during the operation of the office equipment as described above, there was a disadvantage in that a large amount of air containing contaminants having harmful particles to the human body is generated, such contaminated air is discharged into the office and various There was a problem causing diseases such as respiratory disease and lung disease.

Therefore, the present invention has been made to solve the above-described problems, when exhausting the air heat exchanged during the use of office equipment, such as to cool the heat generated from the inside, to filter the exhaust air to supply clean air to the room It is an object of the present invention to provide a method for manufacturing a gas filter for office equipment.

In the present invention for achieving the above object, in the method for manufacturing a gas filter for office equipment, the web (WEB) made of fabric is stacked up and down and the activated carbon is fixed between the web (WEB) of activated carbon particles Coconut shell base particles are used as a unit, and the unit weight is 170 to 400 g / m 2, and the activated carbon is 40 to 70% by weight, and the thickness is 1.1 to 2.15 mm, permeability (l / 100cm ² x min). ) 595 to 1105, the pressure drop (Paure Drop) (Pa) is a nonwoven fabric manufacturing process for forming a nonwoven fabric to be 67 ~ 124;

A bending process of folding the nonwoven fabric formed in the nonwoven fabric manufacturing process into a plurality of wrinkles to form a media;

Cutting the nonwoven fabric into media, and then cutting a media of the media;

Bonding the band-shaped frame to both side surfaces of the media after the media of the media is cut;

A frame cutting step of manufacturing an element by cutting the media of the frame attached to the media;

It is characterized by consisting of an assembly process for forming a gas filter by fixing the element made in the frame cutting process in a case of the rectangular window shape.

The manufacturing method of the gas filter for office equipment of the present invention and the gas filter manufactured using the same are installed on one side of the blower fan installed in the office equipment to filter the polluted air flowing into the room to clean the indoor air, Purifies the indoor air and at the same time has the effect of keeping the room in a comfortable environment.

In addition, the present invention has the effect of improving the health of the worker by preventing diseases such as respiratory diseases and lung diseases of workers using office equipment by blocking the indoor air pollution.

Figure 1 is a manufacturing process showing a manufacturing method of the gas filter for office equipment of the present invention
2 is a view showing the structure of a gas filter manufactured using the method for manufacturing a gas filter for office equipment of the present invention.
3 is a view illustrating a gas filter structure in a state in which a case is adhered to an outer side of a gas filter manufactured by using the method for manufacturing a gas filter for office equipment of the present invention.
Figure 4 is a view showing a cross-sectional view of a gas filter manufactured using the manufacturing method of the gas filter for office equipment of the present invention
Figure 5 is a perspective view of a gas filter for office equipment of the present invention
6 is a view showing another embodiment of a gas filter element adopted in the present invention,
7 shows yet another embodiment of a gas filter element employed in the present invention.
8 is a view showing a state of use using a gas filter manufactured using the manufacturing method of the gas filter for office equipment of the present invention.

The present invention provides a method of manufacturing a gas filter for office equipment,

The web WEB made of fabric is stacked up and down, and the activated carbon is fixed between the webs WEB to use coconut shell base particles as particles of the activated carbon, forming a unit weight of 170 to 400 g / m 2 for the area. It contains 40 to 70% by weight of activated carbon, and has a thickness of 1.1 to 2.15 mm, permeability (l / 100cm ² x min) of 595 to 1105, and pressure drop (Pa) of 67 to 124. Nonwoven fabric manufacturing process;

A bending process of folding the nonwoven fabric formed in the nonwoven fabric manufacturing process into a plurality of wrinkles to form a media;

Cutting the nonwoven fabric into media, and then cutting a media of the media;

Bonding the band-shaped frame to both side surfaces of the media after the media of the media is cut;

A frame cutting step of manufacturing an element by cutting the media of the frame attached to the media;

It characterized in that the assembly made of the frame cutting process is put into a case of the rectangular window shape to form a gas filter to form a gas filter, characterized in that formed of the non-woven fabric or polyurethane foam.

In addition, the present invention discloses a gas filter for office equipment obtained through such a process,

Non-woven fabric formed by fixing activated carbon between webs attached to the upper and lower sides, respectively, is formed on the upper or lower surface or one surface selected to form a polyurethane foam sheet is formed by folding in a plurality of pleats, the side portion of the media Attaching and fixing the frame to form an element, characterized in that the element is configured to be fixed to put in the case of the rectangular window.

In addition, the present invention,

Form a non-woven fabric consisting of a web (WEB) is attached to the top and bottom in the center, the polyurethane foam sheet to which the activated carbon is fixed to the upper and lower surfaces or selected one side of the non-woven fabric is adhesively formed to form a media formed by folding into a plurality of wrinkles, the media Attaching and fixing the frame to the side portion of the to form an element, characterized in that it is configured by inserting and fixing the element in the case of the rectangular window.

Further, according to the present invention,

A nonwoven fabric formed by fixing activated carbon is formed between webs that are attached up and down, and a media formed by folding the nonwoven fabric into a plurality of pleats is formed, and an element is formed by attaching and fixing a frame to the side of the media. The element is put into the case of the rectangular window and fixed.

Wherein the activated carbon is granular or powder.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

The present invention as shown in the accompanying drawings, Figure 1 is a manufacturing process showing a manufacturing method of the gas filter for office equipment of the present invention, Figure 2 is a gas produced using the manufacturing method of the gas filter for office equipment of the present invention Figure 3 is a view showing the structure of the filter, Figure 3 is a view showing the structure of the gas filter in the case bonded to the outer portion of the gas filter manufactured by using the manufacturing method of the gas filter for office equipment of the present invention, Figure 4 A diagram showing a cross-sectional view of a gas filter manufactured using the method for manufacturing a gas filter for office equipment of the present invention.

And, Figure 5 is a perspective view of the gas filter for office equipment of the present invention, Figure 8 is a view showing a state of use using a gas filter manufactured using the manufacturing method of the gas filter for office equipment of the present invention.

Subsequently, the manufacturing method of the gas filter for office equipment of the present invention and the gas filter manufactured using the same will be described with reference to FIGS. 1 to 4. As shown in FIG. 5, a nonwoven fabric is formed by joining through a series of bonding processes using fibers, fabrics, and fabrics (WEB; hereinafter referred to as "webs") which are materials of the nonwoven fabric. At this time, the bonding process of the web to form the nonwoven fabric is used in various ways, such as a chemical method, a physical method using heat, a mechanical needle using a conventional manufacturing process, in the present invention, a web using a chemical method and heat as a preferred method The joining method is used.

The web to be made nonwoven fabric is cut to have a certain size (cutting step) and the cut web is put into the needle room and passed through, and at this time, the needles installed in the needle room are combined with the inserted web while repeating the vertical movement (web joining step).

The web is formed of a nonwoven fabric using chemical methods and heat.

The nonwoven fabric is made of a combination of various fibers such as viscose, polyester, polypropylene and the like and is formed to have a weight of 5 to 500 g / sqm and a thickness of 1 to 5 mm.

 When the web is bonded as described above, it is immersed and dried according to the method using the respective media materials, and the activated carbon is uniformly sprayed between the nonwoven fabrics at the concentration and weight of activated carbon according to the purpose to be fixed by using a chemical method and heat while using an adhesive ( Fixed process).

When activated carbon is fixed to the nonwoven fabric as described above, in the case of a thin nonwoven fabric, the activated carbon particles are coated on one or both surfaces (coating step).

Then, the nonwoven fabric is introduced between the pressing rollers to squeeze the surface floating fibers of the nonwoven fabric so as to uniformize the density and reinforce the strength (calendering process).

After going through a series of processes for making a nonwoven fabric as described above (nonwoven fabric manufacturing process), the finished nonwoven fabric is introduced into a knife bending machine and bent using a nonwoven fabric inserted into the knife bending machine to form a zigzag corrugated media (bending process). .

The media formed in the zigzag corrugated state is cut to a certain size, preferably, the media medium bent at a bending height of 10 to 20 mm in widths of 70 mm, 80 mm, and 100 mm (cutting process).

Subsequently, a band-shaped frame is bonded to both side surfaces of the median from which the media is cut as described above.

Hot melt is applied to the side portion where the frame and the corrugated media are in contact with each other, followed by fusion to form an element (adhesion step).

Then, the media of the frame is cut to form a finally completed element (frame cutting process).

The gas filter for office equipment which the present invention intends to achieve is formed by fixing the element formed as mentioned above in the case of rectangular window shape (assembly process).

After that, the finished gas filter is packed in a case and shipped (packing the product).

Next, referring to the drawings showing the structure and the use state of the gas filter for office equipment of the present invention shown in Figures 2 to 5, as shown in Figures 2 and 3, the nonwoven fabric 10 is The median 12 is formed in a state in which a plurality of wrinkles are folded so that the side cross-section of the nonwoven fabric 10 is zigzag-shaped.

Frames 16 are attached to both side portions of the media 12, and an adhesive 14 is disposed between the media 12 and the frame 16 to connect the frame 16 and media 12. Fusion fixing

The adhesive 14 uses hot-melt.

FIG. 4 is a cross-sectional view of FIG. 3, showing a state when the frame 16 is cut in a state in which the frame 16 is adhered to the media 12.

It can be seen that the nonwoven fabric 10 is formed in a zigzag pattern with several layers of wrinkles, and the frame 16 is adhesively fixed to the side portion to form the element 18.

5 is a perspective view showing the structure of the gas filter for office equipment of the present invention, and covers the window-shaped rectangular case 20 in the state in which the element 18 is formed to fix the office gas filter 22. .

The contaminated air discharged from the blowing fan 302 is filtered by attaching and fixing the gas filter 22 for the office device, which is formed as described above, to the blowing fan 302 formed on the side portion of the office device 300.

The nonwoven fabric 10 used in the office gas filter 22 of the present invention as described above uses coconut shell base particles as particles of activated carbon, and forms a unit weight of 170 to 400 g / m 2 based on the area and compares the weight. 40 ~ 70% of activated carbon, 1.1 ~ 2.15 mm thickness, permeability (l / 100cm ² x min) is 595 ~ 1105, pressure drop (Pa) is 67 ~ 124.

And, the gas adsorption effect of the nonwoven fabric applied to the gas filter of the present invention is n-butane (mg / cm ² ) 74l / min, 23 ℃, 0.63 ~ 1.17 at 0% rh, toluene (mg / cm ² ) / min, It is 3.92 ~ 7.28 at 23 ℃ and 50% rh, particle filtration rate (0.3-0.5μm) is 11-20% and temperature resistance is -40 ℃ to 60 ℃.

On the other hand, when configuring the filter using a nonwoven fabric applied to the present invention may be various implementations.

For example, as described above, the media 12 may be formed using the nonwoven fabric 10 on which the activated carbon is fixed while the web WEB is formed above and below, but as shown in FIG. 6, the nonwoven fabric 10 having the activated carbon fixed thereto is shown. The upper and lower surfaces, the upper and lower surfaces, respectively, the polyurethane foam sheet 11 is bonded to each of the selected and then bent to form a media (12) will be able to constitute a gas filter.

In addition, in the media 12 constituting the gas filter as shown in FIG. 6, activated carbon is used in the polyurethane foam sheet 11 which is bonded to any one surface selected from the upper and lower surfaces or the upper and lower surfaces by using a nonwoven fabric 10 in which activated carbon is not fixed. The gas filter may be configured to be fixed.

This may constitute a gas filter as shown in FIG. 7, wherein the polyurethane filter sheet 11 may be adhered to the bottom surface of each media 12 to form a gas filter.

The media 12 herein can of course be implemented by each of the foregoing implementations.

The present invention is not limited to the above-described preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such modifications will be within the scope of the claims as key elements of the invention.

10: nonwoven fabric 12: media
14 adhesive 16: frame
18: Element 20: Case
22: gas filter
100: nonwoven fabric manufacturing process 102: bending process
104: cutting process 106: bonding process
108: cutting frame 110: assembly process
120: Product packaging
200: cutting process 202: web bonding process
204: fixing process 206: coating process
208: calendaring process 300: office equipment
302: blowing fan

Claims (7)

In the method for manufacturing a gas filter for office equipment,
The web WEB made of fabric is stacked up and down, and the activated carbon is fixed between the webs WEB to use coconut shell base particles as particles of the activated carbon, forming a unit weight of 170 to 400 g / m 2 for the area. It contains 40 to 70% by weight of activated carbon, and has a thickness of 1.1 to 2.15 mm, permeability (l / 100cm ² x min) of 595 to 1105, and pressure drop (Pa) of 67 to 124. Nonwoven fabric manufacturing process;
A bending process of folding the nonwoven fabric formed in the nonwoven fabric manufacturing process into a plurality of wrinkles to form a media;
Cutting the nonwoven fabric into media, and then cutting a media of the media;
Bonding the band-shaped frame to both side surfaces of the media after the media of the media is cut;
A frame cutting step of manufacturing an element by cutting the media of the frame attached to the media;
The manufacturing method of the gas filter for office equipment comprising the assembly process of forming a gas filter by inserting the element made in the frame cutting process into a rectangular window-shaped case. The method of claim 1,
The nonwoven fabric is a manufacturing method of a gas filter for office equipment, characterized in that made of polyurethane foam. delete delete delete delete delete

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