KR100769319B1 - Method for preparing of dust collecting cartridge filter used in high temperature - Google Patents

Abstract

The present invention relates to a method for manufacturing a high temperature dust cartridge filter, and in particular, a nonwoven fabric or a glass fiber nonwoven fabric produced by a spunlace manufacturing method is impregnated with a heat-resistant resin aqueous solution, taken out, and dried at low temperature, followed by bending and curing. A method for producing a high temperature dust cartridge filter and a high temperature dust cartridge filter manufactured by the method.

The high temperature dust collecting cartridge filter manufactured according to the present method can exhibit high dust collecting efficiency with increased surface area, and can be easily collected at high temperature without a separate cooling system, and the dust collecting equipment can be simplified, and the dust collection performance is improved. It is excellent in durability, heat resistance and lubricity.

High Temperature Dust Collector, Dust Collector Filter, Cartridge Filter, Phenolic Resin, PTFE

Description

Manufacturing method of cartridge filter for high temperature dust collection {METHOD FOR PREPARING OF DUST COLLECTING CARTRIDGE FILTER USED IN HIGH TEMPERATURE}

The present invention relates to a method for manufacturing a high temperature dust cartridge filter, more specifically, to exhibit an increased surface area and high dust collection efficiency, and to simplify the dust collector by performing a direct dust collection at a high temperature without a separate cooling system, The present invention relates to a method for producing a cartridge filter for high temperature dust collection and a cartridge filter having excellent dust collection performance, excellent durability, heat resistance, and lubricity.

The environmental problems caused by industrialization are being recognized day by day, and various methods for removing harmful substances such as dust, soot, waste gas, and volatile organic chemicals generated in industrial processes and daily lives are being devised. .

In particular, in order to remove harmful substances such as dust, industrial processes are generally equipped with a dust collector. The dust collector is generally operated at a temperature of 130 ° C. or less by allowing the dust to pass through the cooling system before the dust is introduced into the dust collector because of the heat resistance of the dust filter. Recently, a flat filter has been used to improve dust collection efficiency.

The cartridge filter increases the surface area of the filter through the bending of the planar filter, and generally impregnating resins such as phenol resins, acrylic resins, melamine resins, and the like, such as cellulose (Cellulose) and nonwoven fabrics (PE, PP, and acrylic materials). It is prepared by impregnating in, curing and stiffening, and bending it. It is also manufactured by fixing the bent filter to the cartridge filter frame.

On the other hand, if the dust collector can directly process the high temperature (180 ~ 260 ℃) dust collection gas, it does not need a separate cooling device, and because it can significantly reduce the energy used in the cooling device, research on high temperature dust collection filter In addition, the development of a cartridge type dust collecting filter having an increased surface area while being particularly suitable for high temperature has been requested.

Republic of Korea Patent Application No. 10-2003-0007494 is a teflon and fluorine resin mixture is coated separately in the fiber strands to maintain the shape stability, at this time, 15% Teflon and 25% fluorine resin mixture is mixed, and the mixed solution The mixture is again mixed with water at an appropriate ratio and stirred to maintain a constant room temperature, and is supplied into the dissolution tank. The solution is immersed at an appropriate level to be immersed in the dissolution tank to contain a certain amount of solids, and then dehydrated in a squeegee roller. Moisture is evaporated while passing through the heated cylindrical rollers of the upper and lower ten pairs arranged at regular intervals, and the initial temperature is 100 ℃ to 120 ℃ and the finishing temperature is about Drying and curing at 150 ° C simultaneously, high resin resin dip coating improves the surface smoothness It discloses a method of manufacturing a dust-collecting filter. However, the above technique is described only for a high temperature dust collecting filter in the form of a planar filter, and there is no disclosure about a cartridge filter suitable for high temperature dust collecting.

The cartridge filter for high temperature dust collection is first, the filter medium of the existing cartridge filter is made of thermal bond, but most of the filter medium of high temperature filter is thermosetting resin, so thermal bonding is difficult. Second, the product impregnated with stiff high temperature resin is bent. There is a problem that the life of the filter is very short due to the breakage of the fiber when the tensile strength is greatly damaged, it is necessary to solve this problem.

In order to solve the problems of the prior art as described above, the present invention can exhibit a high dust collection efficiency of the increased surface area, and the high temperature collector to simplify the dust collection equipment and save energy by performing a direct dust collection at a high temperature without a separate cooling equipment An object of the present invention is to provide a cartridge filter for dust collection and a high temperature dust cartridge filter manufactured through the method.

Another object of the present invention is to provide a method for producing a cartridge filter for high temperature dust collection, which has excellent dust collection performance for fine dust, and which significantly improves durability, heat resistance, and interfiber lubricity, and a cartridge filter for high temperature dust collection manufactured through the above method. .

In order to achieve the above object, the present invention is impregnated with a non-woven fabric or a glass fiber nonwoven fabric produced by the spunlace method using a high-temperature fiber, such as polyaramide (Polyaramide), polyimide (Polyimide) in the heat-resistant resin aqueous solution, After taking it out and drying at low temperature, it provides the manufacturing method of the high temperature dust-collecting cartridge filter characterized by bending and hardening.

The present invention also provides a cartridge filter for high temperature dust collected by the above method.

Hereinafter, the present invention will be described in detail.

The inventors of the present invention while studying a high temperature dusting cartridge filter that can effectively remove the fine dust by replacing the bag filter for dust collection at a high temperature (180 ~ 260 ℃), non-woven fabric produced by the spunlace manufacturing method or When the glass fiber nonwoven fabric prepared by a special manufacturing method was impregnated into the heat resistant resin, and then bent and cured after drying at low temperature, it was confirmed that a very good high temperature dust cartridge filter could be manufactured, and based on this, the present invention was completed.

The high temperature dust collecting cartridge filter of the present invention has excellent dust collecting performance against fine dust, excellent breathability and flexibility, and uses a nonwoven fabric manufactured by a spunlace manufacturing method that can minimize fiber damage and maximize fiber density. The raw material of the nonwoven fabric is not particularly limited as long as it is a fiber having heat resistance. Preferably, the raw material of the nonwoven fabric is preferably polyaramide, polyimide, and polyphenylene sulfide (PPS). At this time, the non-woven fabric is weight 100 ~ 250 g / ㎡, thickness 0.5 ~ 1.5 ㎜, tensile strength 20 ~ 100 kg / 5 ㎝ (Cut strip method), elongation less than 30%, the deviation of the left and right tensile strength is preferably less than 30% Do. In the above range, the manufactured high temperature dust collecting filter may collect the fine dust, which is more suitable in dust collection efficiency, processability, durability, and the like.

The cartridge filter of the present invention may also use a glass fiber nonwoven fabric. Preferably, the glass fiber nonwoven fabric may be prepared by the following manufacturing method. First, prepare a fiberglass fabric with a thickness of 1000 Deniar, 10 가로 10 Mesh (number of horizontal strands per inch), and reduce the damage to the fabric during needle punching. %) Is diluted in water to a weight ratio of 10-50%, and then the solution is impregnated with a glass fiber fabric, dried and heat-treated at a temperature of 300-350 ℃. This is because the PTFE is coated on the glass fiber fabric and the damage of the fiber can be minimized because the PTFE is lubricated during needle punching. Here, a 1000 Filament Multi Filament made of fine fibers with a single fiber thickness of about 10 μm in diameter is cut into 30-60 mm lengths to open and card to form a web of constant thickness and width. After molding, needle punching was performed on the PTFE-coated glass fiber fabric at a weight of 200-300 g / m 2, thereby forming a glass fiber nonwoven fabric laminated with the glass fiber fabric. It is preferable that the density of needle punching at this time is 100-300 Stroke / cm <2>.

In addition, the method for producing a high temperature dust cartridge filter of the present invention comprises the step of impregnating the non-woven fabric and the glass fiber non-woven fabric produced by the spanlace manufacturing method in a heat-resistant resin solution. The impregnation process is intended to increase the heat resistance of the nonwoven fabric, improve the lubricity of the filter fibers to reduce the abrasion due to friction between the fibers, and also to increase the bending performance and dust removal performance. Preferably, the heat-resistant resin solution is a mixture of a phenol resin solution and a PTFE solution, more preferably 10 to 40% by weight of the phenol resin solution, 60 to 90% by weight of the PTFE solution, the heat resistance is increased, the lubricity of the filter fiber , Bending performance and dust removal performance Good on the side As a specific example, a commercially available 60% aqueous phenolic resin solution or 58% PTFE aqueous solution may be used.

In addition, the content of the heat-resistant resin aqueous solution can be appropriately adjusted by those skilled in the art, preferably 10 to 80 parts by weight, more preferably 20 to 50 parts by weight based on 100 parts by weight of the impregnated nonwoven fabric. If it is in the above range it is better in the durability, heat resistance and the like of the post-process and manufactured cartridge filter.

In addition, the method for manufacturing a high temperature dust collecting cartridge filter of the present invention includes a step of drying at low temperature after impregnation of the nonwoven fabric with the heat-resistant resin aqueous solution. The low temperature drying removes the liquid component in the heat-resistant resin aqueous solution in the nonwoven fabric, and imparts stiffness suitable for bending to the nonwoven fabric.

The reason for the low temperature drying in the present invention is that if the heat-resistant resin-treated nonwoven fabric is too stiff after drying, the fiber is damaged during bending and the tensile strength is greatly reduced, thereby shortening the life of the cartridge filter. Preferably, the low temperature drying temperature is preferably 80 ° C. or lower, and more preferably drying at 50 to 80 ° C. in consideration of productivity.

In addition, the method for manufacturing a high temperature dust cartridge filter of the present invention includes the step of bending and curing the low temperature dried filter medium. The present invention solves the problems of bending and durability due to bending after curing by curing after bending.

In the present invention, the bending may be bent using a bending machine used when bending a conventional cartridge filter, and then the cartridge filter for high temperature dust collection is manufactured by curing the bent filter medium. Preferably, pre-heating at 50 to 100 ℃ prior to the bending it is good to give the filter medium a stiffness suitable for bending.

More preferably, the bending and hardening of the present invention uses a knife type bending machine provided with pre and post heaters. In the bending machine, a pre-heater performs a preheating process before bending, and a post-heater performs a curing process after bending.

At this time, the temperature of the preheater is preferably maintained at 50 ~ 100 ℃, the temperature of the post heater is preferably maintained at 300 ~ 350 ℃. In particular, if the temperature is maintained above 327 ℃ (melting point of PTFE), the fluidity is generated in the PTFE can be completely coated on the fiber surface and a solid coating film can be formed. In addition, the passing time of the preheater and the post heater is preferably 5 to 30 minutes. Within the range, the hardened media after bending can maintain the stiffness after bending without lowering the original fabric strength, and is good in productivity, dust collection performance and durability.

The method of manufacturing a high temperature dust cartridge filter of the present invention may further include fixing the cartridge filter to the cartridge filter frame after the bending and curing. Of course, the cartridge filter frame may be generally used in a cartridge filter for room temperature. Of course, the frame may be a heat-resistant material, and in particular, 0.1 to 0.5 mm thick steel sheet (SUS or zinc). It is more preferable to use a steel sheet) since it is suitable for high temperature dust collection. More preferably, the adhesive used for fixing the cartridge filter and the frame may use heat resistant resins such as epoxy, phenol, and PI (polyimide) having excellent heat resistance and strength, and also increase the heat resistance and flexibility of the filter. 10 to 30 parts by weight of PTFE powder or alumina powder (particle size of 5 to 20 μm) may be added to 100 parts by weight of the resin used as an adhesive for the purpose of making it.

In addition, the manufacturing method of the high temperature dust cartridge filter of the present invention may further include a step of aging the cartridge filter fixed to the frame in a high temperature chamber of 150 ~ 200 ℃ 30 ~ 60 minutes, in this case, the adhesive performance and durability of the adhesive Even better.

In addition, the present invention provides a high temperature dust cartridge filter manufactured by the above method, the high temperature dust cartridge filter of the present invention shows a direct dust collection performance at a high temperature (180 ~ 260 ℃) immediately without a separate cooling facility By collecting dust, it is possible to simplify the dust collecting equipment and save energy, and it has excellent dust collecting performance against fine dust, and has excellent durability, heat resistance, dust collecting performance, and bending holding performance.

Hereinafter, preferred examples are provided to help understanding of the present invention, but the following examples are merely to illustrate the present invention, and the scope of the present invention is not limited to the following examples.                     

EXAMPLE

Example 1

Polyaramide was made of a nonwoven fabric having a weight of 150 g / m2, thickness 1.0 mm, tensile strength 50 kg / 5 cm (cut strip method), elongation 25%, and 20% variation in tensile strength by spunlace method. Then, impregnated with an aqueous solution of a heat-resistant resin consisting of a 1: 2% by weight mixture of a 60% phenolic resin solution and a 58% PTFE aqueous solution to be 40% by weight relative to 100% by weight of the nonwoven fabric to be impregnated, at 60 ° C. for 1 hour. After drying at a low temperature and preheating for 20 minutes in a preheater at 80 ° C. using a knife type bending machine, a cartridge filter for high temperature dust collection was prepared by bending and curing for 20 minutes in a post heater at 330 ° C.

Example 2

A high-temperature dust-collecting cartridge filter was prepared in the same manner as in Example 1 except that a nonwoven fabric prepared by a spunlace manufacturing method using polyimide was used.

Example 3

A high temperature dust cartridge filter was prepared in the same manner as in Example 1 except that a nonwoven fabric prepared by a spunlace manufacturing method using PPS was used.

Example 4

The filter prepared according to Example 1 was fixed to a cartridge filter frame made of 0.2 mm thick steel sheet and aged for 1 hour in a high temperature chamber at 150 ° C. to prepare a cartridge filter for high temperature dust collection.

The method of manufacturing a high temperature dust cartridge filter and a cartridge filter according to the present invention can exhibit an increased surface area and high dust collection efficiency, and can be easily collected at a high temperature without a separate cooling system, thereby simplifying dust collection and saving energy. Excellent dust collection performance for fine dust, durability, heat resistance and dust-absorbing performance is significantly improved.

Claims (12)

A method of manufacturing a cartridge filter for high temperature dust collection, characterized in that the nonwoven fabric or glass fiber nonwoven fabric produced by the spunlace method using high temperature fibers is impregnated with a heat-resistant resin aqueous solution, taken out, dried at low temperature, and then bent and cured. The method of claim 1, The high temperature fiber is a method for producing a high temperature dust cartridge filter, characterized in that the polyaramid, polyimide, PPS. The method of claim 1, The glass fiber nonwoven fabric is a glass fiber fabric in a solution consisting of a PTFE (Polytetrafluoroethylene) aqueous solution using a glass fiber fabric having a thickness of 1000 Deniar 10 × 10 Mesh, diluted in water at a weight ratio of 10-50% The fabric was impregnated and dried, and heat treated at a temperature of 300 to 350 ° C., and a multi-filament of 1000 denier thickness consisting of fine fibers having a short fiber thickness of about 10 μm in diameter was coated with PTFE. After cutting to 60 mm in length and opening and carding the web to the molding machine, needle punching was performed at a weight of 200-300 g / ㎡, and the needle punching density was 100 to 300 Stroke / ㎠ A method for producing a high temperature dust cartridge filter, characterized in that the glass fiber nonwoven fabric laminated with a glass fiber fabric. The method of claim 1, The nonwoven fabric is less than 30% elongation, 30% deviation in left and right tensile strength A method for producing a high temperature dust cartridge filter, characterized in that less than. The method of claim 1, The heat-resistant resin aqueous solution is 10 to 40% by weight aqueous solution of phenol resin and 60 to 90% by weight PTFE aqueous solution. The method of claim 1, The drying is a method for producing a high temperature dust cartridge filter, characterized in that drying at a temperature of 80 ℃ or less. The method of claim 1, Method for producing a high temperature dust cartridge filter, characterized in that the bent after passing through a pre-heater (Pre-heater) maintained at 50 ~ 100 ℃ for 5 to 30 minutes before the bending. The method of claim 1, The curing method for producing a high temperature dust cartridge filter, characterized in that the curing through a post heater maintained at 300 ~ 350 ℃. The method of claim 1, And fixing the cartridge filter cured after the curing to the cartridge filter frame. The method of claim 1, The cartridge filter frame is a method for producing a high temperature dust cartridge filter, characterized in that the steel sheet (SUS or galvanized steel) of 0.1 ~ 0.5 mm thick. The method of claim 9, The fixed cartridge filter is further aged for 30 to 60 minutes in a high temperature chamber (Chamber) of 150 ~ 200 ℃ characterized in that the manufacturing method of the high temperature dust cartridge filter. A high temperature dust cartridge filter manufactured according to any one of claims 1 to 11.