KR101414038B1 - Apparatus and its method of treating zeolite using mixed liquid including zeolite - Google Patents

Abstract

The present invention relates to an apparatus and a method for a zeolite treatment using a zeolite-mixed solution. According to the present invention, the apparatus for a zeolite treatment includes a mixed solution to which zeolite powder is mixed and agitated; a solution tank in which the mixed solution is contained; and a transfer part which transfers a fabric to soak the fabric in the mixed solution in the solution tank for a predetermined time for soaking. The zeolite mixed and agitated in the mixed solution is attached to the surface of the fabric by forming a coating layer with the mixed solution. Accordingly, the zeolite treatment can be performed on the fabric in an easy manner since the zeolite powder, as an ingredient of the mixture to which a coating agent and a flame retardant solution are mixed and agitated, is applied on the fabric. Meanwhile, the zeolite treatment can be simultaneously performed with a coating process or a treating process of the flame retardant solution. Therefore, the number of processes can be reduced, and at the same time, efficiency of the zeolite treatment can be increased.

Description

TECHNICAL FIELD [0001] The present invention relates to a zeolite treatment apparatus and a zeolite treatment apparatus,

The present invention relates to a zeolite treatment apparatus and a method thereof, and more particularly, to a zeolite treatment apparatus and method thereof, in which a zeolite powder is treated together with a coating solution or a flame retardant solution in a mixed solution state, To a zeolite treatment apparatus and a zeolite treatment method using the zeolite mixture solution capable of shortening the process water and improving the zeolite treatment efficiency.

Zeolite is a generic term for minerals that are alkali silicate aluminum hydrates of alkali and alkaline earth metals, and they are classified into various types according to the structure, shape and size of three-dimensional pores.

In the zeolite skeleton, sites where silicon ions are replaced by aluminum ions can be incorporated in the structure to compensate for charge defects. The remaining space other than the space occupied by the cations is generally filled with water molecules.

When the zeolite is heated at a temperature of 200 to 300 ° C. for a certain period of time, it releases cations or water and accepts other molecules into the pores. Through this process, size selectivity or shape selectivity Can be used as a molecular sieve (Molecular sieve) has been widely used.

Also, Zeo type molecular sieves, in which some or all of the zeolite silicon and aluminum are replaced by various other elements, are also widely used in industry. For example, a zeolite-like substance in which a cation is replaced with a metal element can be used as a cracking catalyst for crude oil in the petrochemical industry, and in addition, zeolite and zeolite-like substances can be used as dehydrating desiccants, adsorbents, gas purifiers, detergent additives, Improving agents, carriers for sensors, and the like.

Such zeolites and the like are generally present as fine powders, and in order to utilize them effectively, studies have been actively conducted to adhere fine molecular sieve particles in the form of fine powder to the surface of a substrate.

For example, it is a method using a compound having a methyldimethoxysilyl group (Me (MeO) ₂ Si-) as a spacer for connecting a substrate and a zeolite on both sides. This is a method of covalently bonding one methyldimethoxysilyl group and a methyldimethoxysilyl group of a compound having methyldimethoxysilyl groups at both ends thereof to the covalent bond with zeolite particles to induce the covalent bond between the other methyldimethoxysilyl group and the zeolite to be. However, this method has a problem that not only the directionality of the zeolite particles can not be controlled but also the methyldimethoxysilyl groups on both sides of the spacer are simultaneously bonded to the substrate, which interferes with the bonding between the substrate and the zeolite.

Another method is to attach the substrate and zeolite using multistage ionic bonding. It treats the aminopropyl groups covalently bonded to the surface of the substrate with hydrochloric acid, makes the surface of the substrate positively charged with ammonium ions, and treats the sodium polystyrenesulfonate polymer to coat the surface of the substrate with a negatively charged polymer. These methods are alternately carried out to form a zeolite thin film by ionic bonding, which requires a complicated process of six or more steps, and although the zeolite is somewhat uniformly arranged, there was.

In addition to the above methods, it has also been suggested that zeolite particles nuclei are formed on the substrate and then grown to directly synthesize the zeolite membrane on the surface of the substrate. However, the limitation is that a substrate which is not denatured under zeolite synthesis conditions should be used, The thickness can not be adjusted as needed.

On the other hand, since zeolite is applied to fabrics used for blinds or party knives, the above methods commonly require treatment of zeolite separately from the coating of the fabric itself or the process of treating the flame retardant, , There is a problem that the process time is increased and the process efficiency is lowered by preparing separate process facilities accordingly.

Korean Patent Publication No. 2013-17165

Accordingly, it is an object of the present invention to provide a zeolite treatment method and a zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite zeolite And a zeolite treatment apparatus using the zeolite mixture solution capable of shortening the process water and improving the zeolite treatment efficiency.

It is another object of the present invention to provide a zeolite treatment apparatus and a zeolite treatment apparatus using the zeolite mixture solution capable of evenly dispersing zeolite in a mixed solution by ultrasonic waves, .

It is a further object of the present invention to provide a zeolite which can improve adhesion rate by secondary attachment of zeolite by spraying zeolite through a nozzle and suitably attaching the zeolite to the zeolite according to the function of the zeolite, And to provide a zeolite treatment apparatus and method using the zeolite mixture solution capable of maximizing the functionality.

According to an embodiment of the present invention, the above object can be accomplished by a method for producing a zeolite powder, comprising: mixing a zeolite powder with stirring; A water tank containing the mixed solution; And a transfer part for transferring the raw fabric so that the raw fabric is immersed in the mixed solution in the water tank for a set immersion time, wherein a zeolite mixed in the mixed solution forms a coating layer on the surface of the raw fabric together with the mixed solution, And a zeolite treatment apparatus using the same.

And an ultrasonic wave generator provided in the water tank so as to be submerged in the mixed liquid and irradiating ultrasound waves toward the raw fabric to induce dispersion of the zeolite in the mixed solution and adhesion to the raw fabric.

The ultrasonic wave generator may be provided in the water tank in two or more.

The mixed liquid may include at least one of a liquid coating material containing a polyester resin or a flame retarding liquid.

The coating material or the flame retardant and the zeolite may be provided in a weight ratio of 1: 0.01 to 0.1.

And a nozzle disposed at one side of the water tank for spraying atomized zeolite on the coating layer of the raw fabric that has passed through the mixed solution.

The nozzles may cause the zeolite to be sprayed before the coating layer of the fabric is dried.

The nozzle may spray 0.01 to 1 g of zeolite per square meter of the fabric.

The zeolite stirred in the mixed solution may be provided as an antimicrobial zeolite, and the zeolite injected by the nozzle may be prepared as a zeolite for sorption.

The immersion time is preferably in the range of 1 to 10 seconds.

According to another aspect of the present invention, there is provided a method of preparing a coating liquid for a coating material, comprising the steps of: preparing a mixed liquid in which one or more of a liquid coating material or a flame retardant liquid and an antibacterial zeolite powder are stirred; Conveying the fabric so that the fabric is held in the hosing liquid for a set immersion time; Irradiating ultrasonic waves to the raw fabric in the water tank to disperse and attach the zeolite to the raw fabric to form a coating layer; And spraying the atomized zeolite for spraying through the nozzles before the coating layer of the raw material having passed through the mixed solution is dried by spraying zeolite with the zeolite mixture solution.

According to the zeolite treatment apparatus and method using the zeolite mixture liquid according to the embodiment of the present invention, the zeolite powder is easily treated with zeolite because the zeolite powder is treated together with the coating agent or the flame retardant in the mixed liquid state , The zeolite treatment can be performed together with the coating process or the flame retardant treatment process, so that the process water can be shortened and the zeolite treatment efficiency can be improved.

Further, since the mixed solution is used, it is very easy to control the treatment range (area and position) of the zeolite and the concentration (stirring amount) of the zeolite. In addition, there is an advantage that it can be used in the process of the fabric which does not have a drying process depending on the ratio of the mixed liquid and the air amount, regardless of the processing speed of the fabric.

In addition, since the zeolite can be evenly dispersed in the mixed solution by ultrasonic waves, the zeolite dispersion efficiency can be improved as a result, and the deposition efficiency can be improved.

Also, by spraying zeolite on the raw material through nozzles, it is possible to improve the deposition rate by secondary attachment of zeolite, and it is possible to apply appropriate attachment methods according to the function of zeolite, thereby maximizing the functionality of zeolite.

1 is a perspective view of a zeolite treatment apparatus according to an embodiment of the present invention,
Figure 2 is a cross-sectional view of the zeolite treatment apparatus shown in Figure 1,
3 is a flow chart of a zeolite treatment method according to an embodiment of the present invention,
4 is an enlarged photograph of the fabric treated in accordance with the present invention.

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

1 and 2, a zeolite treatment apparatus 1 using a zeolite mixed solution according to an embodiment of the present invention includes a mixed solution 20 in which powder of zeolite 100 is stirred, And a transfer section 30 for transferring the raw material S so that the raw material S is immersed in the mixed liquid 20 in the water tank 10 during the set immersion time, The zeolite 100 together with the mixed solution 20 forms a coating layer on the surface of the fabric S and adheres thereto.

The zeolite (100) used in the present invention may be various kinds such as natural and synthetic.

Specifically, the zeolite of all or a portion of silicon and aluminum elements in the skeleton (P), boron (B), gallium (Ga), titanium (Ti), such as substituted with other elements ring molecular sieve, that is, for example, AlPO ₄ , SAPO, MeAPO, MeAPSO and the like can be used.

Alternatively, porous oxides or silicon oxides such as silicalite, MCM-based porous silica, porous titanium dioxide, niobium dioxide, TS-1, Ti- & beta, ETS-10 and the like may be used, Porous molecular sieve made by using the elements alone or in combination may be used.

The zeolite 100 according to the present invention can be used for antibacterial zeolite or sorption zeolite. The zeolite to be stirred with the mixed solution 20 to be described later is used for the antibacterial zeolite, Zeolite can be used as an adsorbent zeolite.

Since the zeolite treated on the fabric (S) has gas adsorption and ion exchange functions, it performs functions such as deodorization, dehumidification, storage and maintenance of new gifts, removal of toxic gas adsorption, and antibacterial function. It has deodorizing ability about twice as much as that of the same amount of activated carbon for the four odor components such as ammonia, hydrogen sulfide, trimethylamine and methyl mercaptan, and also has the effect of removing organic chemical gas.

The zeolite 100 can be pre-treated if necessary before the preparation of the mixed solution 20 and the ion exchange can be performed with all the metal ions such as Au, Ag, Pt, Ti, Zn and Fe, Or may contain nanoparticles of the metal ions.

The zeolite 100 can be provided with various particle sizes. For example, since the zeolite itself has porosity, the smaller the particle size, the more the surface area increases and the function such as antimicrobial or deodorization can be improved. Therefore, particles of 500 nm or less can be used.

The fabric S may be a variety of known fabrics used for blinds, curtains or party knives used in domestic or office use.

The mixed liquid 20 is prepared by stirring the zeolite 100 using a coating agent or a flame retardant as a solvent for coating the fabric S,

The coating material may be a material commonly used for coating the cloth S, without limitation, and may be provided, for example, with a polyester resin.

The mixed liquid 20 may include only one of a coating agent or a flame-retardant, or both. In this case, the coating agent or the flame-retardant liquid and the zeolite are stirred at a weight ratio of 1: 0.01 to 0.1.

The transfer unit 30 transfers the tail S to the water tank 10 and the nozzle 50 so as to be immersed and exposed sequentially.

The transfer unit 30 may include a dipping roller 31. The dipping roller 31 is provided in the water tank 10 so that the raw material S is immersed in the mixed liquid 20, do.

The feeding speed of the fabric S can be variously adjusted according to the kind of the fabric S and the mixed liquid 20. Generally, the fabric S is immersed in the mixed liquid 20 for about 1 to 10 seconds do. For example, when the antimicrobial zeolite powder is mixed with the coating agent or the flame retardant at the above weight ratio, and the fabric S is a blind or party knife fabric, it is preferably about 4 seconds or less.

4 (a) is an enlarged photograph of a fabric that has not yet been subjected to any treatment, and FIG. 4 (b) is an enlarged photograph of a fabric S treated with the flame-resistant liquid 200. FIG. Referring to the photograph, it can be confirmed that the flame-retardant 200 is coated on the fabric S.

4 (c) is an enlarged photograph of the fabric S treated by the mixed liquid 20 in which the flame retardant 200 and the zeolite 100 are stirred. Referring to the photograph, it can be confirmed that the zeolite 100 is attached to the fabric S.

Thus, the zeolite powder is treated together with the coating agent or the flame retardant in the form of a mixed solution, so that the zeolite treatment on the fabric is easy, while the zeolite treatment is possible together with the coating process or the flame retardant treatment process. At the same time, the zeolite treatment efficiency can be improved.

Further, since the mixed solution is used, it is very easy to control the treatment range (area and position) of the zeolite and the concentration (stirring amount) of the zeolite. In addition, there is an advantage that it can be used in the process of the fabric which does not have a drying process depending on the ratio of the mixed liquid and the air amount, regardless of the processing speed of the fabric.

Here, the immersion time is set in a range of 1 to 10 seconds, preferably about 4 seconds.

The ultrasonic wave generating unit 40 is provided inside the water tank 10 so as to be contained in the mixed liquid 20 and disperses the zeolite 100 in the mixed liquid 20 by irradiating ultrasonic waves toward the raw material S, S). ≪ / RTI >

As a result, the zeolite can be evenly dispersed in the mixed liquid by ultrasonic waves, and as a result, the zeolite dispersion efficiency can be improved and the deposition efficiency can be improved.

The ultrasonic wave generator 40 may be provided in various numbers as needed. For example, as shown in FIG. 2, the ultrasonic wave generator 40 may be provided with one ultrasonic generator 40 or two ultrasonic generators 40 on both sides thereof. Three may be provided. It is of course possible to arrange it more than moron.

The nozzle 50 is provided at one side of the water tank 10 and is provided to spray the atomized zeolite 100 onto the coating layer of the raw material S which has passed through the mixed liquid 20. [

The zeolite injected from the nozzle 50 atomizes the zeolite for emulsification into a liquid fine particle.

As shown in FIG. 1, a plurality of nozzles 50 may be provided corresponding to the width of the raw cloth S. Needless to say, the nozzle 50 may be provided in two or more rows in the conveying direction of the raw material S, if necessary.

Here, it is preferable that the nozzle 50 injects the zeolite 100 before the coating layer of the raw material S is dried. This is to ensure that the zeolite injected from the nozzle 50 is bonded to the coating layer without being subjected to a separate adhesion treatment and is dried together to effect adhesion.

Thus, the zeolite can be attached by secondary attachment of zeolite by spraying the zeolite through the nozzle, and an appropriate attachment method can be applied according to the function of the zeolite, thereby maximizing the functionality of the zeolite.

Here, the injection amount of the nozzle 50 may be such that zeolite of 0.01 to 1 g per 1 m 2 of the raw material S is injected.

Hereinafter, referring to FIG. 3, a zeolite treatment method using a zeolite mixed solution according to an embodiment of the present invention will be described.

First, the mixed solution 20 is prepared by stirring at least one of the liquid coating agent or the flame retardant and the zeolite (S10). The prepared mixed liquid 20 is contained in a water tank.

Thereafter, the fabric S is transferred through the transfer unit 30 and immersed in the mixed solution 20 (S20).

The fabric S is conveyed at a proper conveying speed so that the fabric S can be immersed in the mixed solution 20 for a predetermined immersion time and a coating layer of the mixed solution 20 is formed on the fabric S at step S30.

During the formation of the coating layer, the ultrasonic wave is generated by the ultrasonic wave generator 40 to uniformly disperse the zeolite in the mixed liquid 20 and to attach the zeolite 100 to the fabric (S40).

Finally, before the coating layer is dried on the fabric S passing through the water tank 10, the atomized zeolite is injected through the nozzle 50 (S50). In this step, the sprayed zeolite is fixed to the fabric S simultaneously with the drying of the coating layer.

Thereafter, a step of drying air by blowing air to the fabric may be further performed.

1: Zeolite treatment device
10: water tank 20: mixed liquid
30: conveying section 31: immersion roller
40: ultrasonic wave generator 50: nozzle
S: Fabric 100: Zeolite
200: flame retardant

Claims (11)

A mixed liquid in which the zeolite powder is stirred;
A water tank containing the mixed solution;
A transfer unit for transferring the fabric so that the fabric is immersed in the mixed solution in the water tank during the set immersion time;
An ultrasonic wave generating unit provided inside the water tank to be submerged in the mixed liquid and irradiating ultrasound waves toward the raw material to induce dispersion of the zeolite in the mixed liquid and adhesion to the raw material;
And a nozzle provided at one side of the water tank for spraying atomized zeolite on the coating layer of the raw fabric which has passed through the mixed solution,
And a zeolite mixed in the mixed solution forms a coating layer on the surface of the raw fabric together with the mixed solution. delete The method according to claim 1,
Wherein the ultrasonic wave generator is provided in the water tank at least two times. The method according to claim 1,
Wherein the mixed solution comprises at least one of a liquid coating agent containing a polyester resin or a flame retardant liquid. 5. The method of claim 4,
Wherein the coating agent or the flame retardant and the zeolite are provided in a weight ratio of 1: 0.01 to 0.1. delete The method according to claim 1,
Wherein the nozzle causes the zeolite to be sprayed before the coating layer of the fabric is dried. 8. The method of claim 7,
Wherein the nozzle injects zeolite of 0.01 to 1 g per square meter of the fabric. 9. The method of claim 8,
Wherein the zeolite stirred in the mixed solution is provided as an antimicrobial zeolite and the zeolite injected by the nozzle is provided as a zeolite for sorption. The method according to claim 1,
Wherein the immersion time is in the range of 1 to 10 seconds. Preparing a mixed liquid in which at least one of a liquid coating agent or a flame-retardant liquid and an antimicrobial zeolite powder are stirred;
Conveying the fabric so that the fabric is held in the hosing liquid for a set immersion time;
Irradiating ultrasonic waves to the fabric in the water tank to disperse and adhere the zeolite to the fabric to form a coating layer;
And spraying the atomized zeolite for spraying through the nozzle before the coating layer of the raw fabric passed through the mixed solution is dried.

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