KR101740477B1 - Drying system for textile - Google Patents

Abstract

The present invention relates to a vertical and horizontal transfer type fabric floating drying system, and more particularly, to a method and apparatus for drying a fabric by efficiently minimizing a space required for drying a fabric, In the floating drying process by the hot air, it is possible to minimize the skew of the fabric, to directly spray hot air on the fabric, and to allow the fabric to stay in the drying chamber 100 for a long time, And to provide a fabric drying system capable of improving the quality of the fabric by maximizing the quality of the fabrics.

Description

[0001] Drying system for textile [0002]

The present invention relates to a vertical and horizontal transfer type fabric floating drying system, and more particularly, to a method and apparatus for drying a fabric by efficiently minimizing a space required for drying a fabric, In the floating drying process by the hot air, the skew of the fabric can be minimized, the hot air can be directly sprayed to the fabric, and the fabric can stay in the drying chamber for a long time, thereby maximizing the drying efficiency of the fabric, Which is capable of improving the quality of a cloth-like drying system.

The textile industry is a high value-added industry, and in past, present and future, the textile industry's impact on our daily lives is more permanent and indispensable than any economic value.

The finishing process of the textile product is the technical field which is the key to the upgrading of the textile product since it ultimately gives the performance required by the product. In general, the fabric or the textile (hereinafter referred to as "fabric" Washing, coating, or the like, or a process of treating the cloth with the wash water or the wash water, and then drying the cloth for the subsequent process or the finished product.

Typical drying processes include a process using a roll supporting drying chamber in which a raw material is conveyed by a conveying roller and drying is performed, a hot air floating drying chamber in which a raw material is floated by hot air, And various techniques such as Patent Document 1 and Patent Document 2 have been proposed.

'Patent Document 1' discloses a drying chamber in which raw materials having passed through a plurality of printing bases are layered and dried and dried; A plurality of drying modules each drying the fabrics in the drying chamber; And a plurality of conveyors for conveying the fabric in the drying chamber, respectively,

Patent Document 2 discloses a method of producing a water-containing dyed fabric comprising at least one dewatering portion for dewatering moisture of a water-containing fabric passed through a spreading roller in a roll reel in which a water-containing dyeing fabric is installed in a roll form, A post-treatment unit including a post-treatment tank for post-treating the semi-dried fabric in the semi-drying treatment unit with a water repellent agent, a softener, a resin, a flame retardant or a fragrance, And a drying treatment section for drying the treated fabric.

However, in the above-described 'Patent Document 1' and 'Patent Document 2', since the fabric is configured to be transported in the lateral direction, there is a problem that the transport space necessary for transporting and drying the fabric is long, There is a problem in that the fabric is frequently skewed when a floating drying method using hot air is utilized.

Korean Registered Patent No. 10-1022830 (Mar. Korean Patent Publication No. 10-2013-0110607 (Mar. 10, 2013)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a fabric drying system capable of maximizing the space utilization by minimizing the space required for drying the fabric.

Another object of the present invention is to provide a fabric drying system capable of minimizing meandering of fabrics during a floating drying process by hot air.

It is another object of the present invention to provide a fabric drying system capable of improving the quality of a fabric by maximizing the drying efficiency of the fabric by allowing hot air to be directly sprayed on the fabric and allowing the fabric to stay in the drying chamber for a long time .

According to an aspect of the present invention,

1. A raw-material floating drying system comprising a drying chamber for allowing a fabric to be floated by hot air and dried,

A fabric inlet 120 formed by perforating one side of the fabric so that the fabric is drawn into the drying chamber 100,

A drying space part 140 formed so as to dry the raw material introduced through the raw material drawing part 120,

A fabric take-out part 130 formed by perforating the lower part of the other side so as to draw the dried fabric in the drying space part 140 to the outside of the drying chamber 100,

A plurality of conveying rollers 200 installed vertically spaced apart from each other in the drying space 140,

A plurality of openings are formed on the other side of the drying space 140 so as to be vertically spaced from each other, and the open end of the open space is formed in a cylindrical shape having one end opened and the other end closed, An exhaust pipe 300 including a plurality of perforated hot air blow holes 320 formed at an outer periphery thereof to blow hot air injected through the hot air inlet 310 and dry the fabric,

A drying chamber 100 including an IR heater 400 configured at least one of an upper side and a lower side of the drying space 140;

A hot air inlet 520 formed at one side to receive hot air from the hot air supplier 600 in combination with the hot air supplier 600,

The hot air inlet 520 is connected to the hot air inlet 310 of the plurality of the vent pipes 300 so that the hot air supplied through the hot air inlet 520 can be uniformly distributed to the plurality of the vent pipes 300, A hot air distributor 500 including at least one hot air distributing port 510 configured in the hot air distributor 500;

A hot air jet opening 620 through which hot air is discharged,

A blow fan 630 configured to suck air from the outside and discharge air through the hot air blowing port 620,

And a hot air feeder 600 having a blowing fan 640 for blowing heat to the air sucked from the outside through the blow fan 630.

Therefore, the present invention can maximize the space utilization by minimizing the space required for drying the fabric, thereby providing a fabric drying system capable of efficiently drying the fabric even in a narrow space.

The present invention also provides a fabric drying system capable of minimizing meandering of fabrics during a floating drying process by hot air.

In addition, the present invention provides a fabric drying system capable of improving the quality of a fabric by maximizing the drying efficiency of the fabric by allowing the hot air to be directly sprayed on the fabric and allowing the fabric to stay in the drying chamber 100 for a long time .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing an example of construction of a vertical and horizontal transporting material floating drying system of the present invention. Fig.
2 is a view showing an internal structure according to an exemplary embodiment of the drying chamber of the present invention.
Fig. 3 is a plan view of an example of the vertical and horizontal transporting material floating drying system of the present invention.
Fig. 4 is a view showing this configuration example of the vertical and horizontal transfer type raw material floating drying system of the present invention.
Fig. 5 is a view showing an internal structure of the drying chamber of the present invention according to this constitutional example.
Fig. 6 is a plan view showing this configuration example of the longitudinal and transverse transfer type far-flung drying system of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Therefore, the shape of each element shown in the drawings may be exaggerated in order to emphasize a clearer explanation. In the description of the present invention, when it is judged that a detailed description of the related art may obscure the gist of the present invention, It is omitted.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. Terms are used only for the purpose of distinguishing one component from another.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

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

1 to 3 are views showing an example of the construction of a vertical and horizontal transfer type fabric floating drying system according to the present invention. Referring to the drawings, the present invention mainly includes a drying chamber 100, a hot air distributor 500, .

More particularly, in a raw-material floating drying system comprising a drying chamber (100) so that the fabric can be floated by hot air and dried,

A drying chamber (not shown) including a raw material drawing unit 120, a drying space unit 140, a raw material drawing unit 130, a plurality of conveying rollers 200, a plurality of exhaust pipes 300, and an IR heater 400 100,

A hot air distributor 500 including a hot air inlet 520 and a plurality of hot air distributing ports 510,

A hot air blower 600, a hot air blower 620, a blow fan 630, and a suction air blower 640.

The raw material inlet 120 is formed by drilling the upper portion of one side of the drying chamber 100 so that the raw material is drawn into the drying chamber 100.

The drying space 140 is formed in the drying chamber 100 so that the raw material introduced through the raw material drawing unit 120 can be dried therein.

The fabric take-out part 130 is formed by punching the lower part of the other side of the drying chamber 100 so that the fabric finished in the drying space part 140 is drawn out to the outside of the drying chamber 100.

That is, the raw end is drawn into the drying chamber 100 through the raw-material inlet 120, the raw material drawn into the drying chamber 100 is dried in the drying space part 140, And the fabric that has been dried in the portion 140 is drawn out to the outside through the fabric take-

The conveying rollers 200 are installed in the drying space part 140 in a large number so as to be vertically spaced from each other.

The ventilating pipe 300 is formed in a large number on the other side of the drying space part 140 so as to be spaced apart from each other. The ventilating pipe 300 has a cylindrical shape with one end opened and the other end closed, And a plurality of perforated hot air spray holes 320 are formed on the outer circumferential surface to spray the hot air injected through the hot air inlet 310 and dry the fabric.

At this time, it is preferable that the conveying roller 200 and the ventilating pipe 300 are installed so that their heights from the ground are different from each other as shown in FIGS. 1 and 2. For example, when the height from the lower surface of the drying space part 140 to the upper surface of the drying space part 140 is 10, the ventilation pipe 300 is installed at one side of the drying space part 140, 3, 5, 7, and 9, and the conveying roller 200 is installed at the other side of the drying space part 140, and may be installed at a height of 2, 4, 6, will be.

At this time, the ventilating pipe 300 serves to float the fabric and to dry the fabric using hot air. The conveying roller 200 not only transports the fabric but also the tension of the fabric passing through the ventilating pipe 300 And the like.

That is, the raw material passing through the vent pipe 300 is not directly contacted with the vent pipe 300, but because of the hot air continuously blown from the hot air injection hole 320 of the vent pipe 300, The conveying roller 200 is installed to prevent the fabric from meandering by holding the tension of the floating fabric at a constant level in such a state that the fabric is floated from the outer periphery of the pipe 300. [

A plurality of the discharge rollers 200 are vertically spaced apart from each other in the drying space 140 and a plurality of the discharge pipes 300 are vertically spaced from each other in the drying space 140, It is preferable to understand that the vent pipe 300 and the conveying roller 200 may be installed on one side and the other side of the conveying roller 200. In this case, The conveying roller 200 and the ventilating pipe 300, and gradually dried down in a zigzag manner.

The IR heater 400 is disposed at least one of the upper side and the lower side in the drying space part 140. By increasing the internal temperature of the drying space part 140, the drying of the fabric is more smooth .

The hot air inlet 520 is formed on one side of the hot air distributor 500 to receive hot air from the hot air supplier 600 in combination with the hot air supplier 600 and is connected to the hot air blower 600 And receives hot air from the hot air supply unit 600. [

The hot air distribution port 510 is connected to the hot air inlet 310 of the plurality of the vent pipes 300 so that the hot air supplied through the hot air inlet 520 is supplied to the plurality of the vent pipes 300 And a plurality of the hot air supplier 600 are provided on the other side of the hot air supplier 600 so as to be evenly distributed and injected.

At this time, it is preferable that the number of the hot air distribution ports 510 is the same as that of the air discharge pipe 300.

The hot air blowing port 620 is formed at one side of the hot air supplying device 600 and can discharge the hot air generated by the hot air supplying device 600 toward the hot air inlet 520 of the hot air distributor 500 And is configured to be able to be coupled to the hot air inlet 520. [

The blow fan 630 sucks air from the outside and discharges air through the hot air blowing port 620.

The suction air heating unit 640 is configured to apply heat to the air sucked from the outside through the blow fan 630.

4 to 6 are diagrams showing an example of this construction of the vertical and horizontal transporting material floating drying system of the present invention. Referring to the drawings, the present invention mainly includes a drying chamber 100, a hot air distributor 500, .

More particularly, in a raw-material floating drying system comprising a drying chamber (100) so that the fabric can be floated by hot air and dried,

A plurality of conveying rollers 200, a plurality of vent pipes 300, an IR heater 400, and a heated air outlet 110, A drying chamber 100,

A hot air distributor 500 including a hot air inlet 520 and a plurality of hot air distributing ports 510,

And a hot air supplier 600 including a hot air blowing port 620, a blow fan 630, a suction air heat exchanger 640, and a circulating hot air inlet 610.

The raw material inlet 120 is formed by drilling the upper portion of one side of the drying chamber 100 so that the raw material is drawn into the drying chamber 100.

The drying space 140 is formed in the drying chamber 100 so that the raw material introduced through the raw material drawing unit 120 can be dried therein.

At this time, any one of the upper surface of the drying space 140 may further include a spray nozzle capable of spraying a coating liquid or a foaming liquid on the fabric.

The fabric take-out part 130 is formed by punching the lower part of the other side of the drying chamber 100 so that the fabric finished in the drying space part 140 is drawn out to the outside of the drying chamber 100.

That is, the raw end is drawn into the drying chamber 100 through the raw-material inlet 120, the raw material drawn into the drying chamber 100 is dried in the drying space part 140, And the fabric that has been dried in the portion 140 is drawn out to the outside through the fabric take-

The conveying rollers 200 are installed in the drying space part 140 in a large number so as to be vertically spaced from each other.

The ventilating pipe 300 is formed in a large number on the other side of the drying space part 140 so as to be spaced apart from each other. The ventilating pipe 300 has a cylindrical shape with one end opened and the other end closed, And a plurality of perforated hot air spray holes 320 are formed on the outer circumferential surface to spray the hot air injected through the hot air inlet 310 and dry the fabric.

At this time, it is preferable that the conveying roller 200 and the ventilating pipe 300 are installed to have different heights from the ground as shown in FIG. 4 and FIG. For example, when the height from the lower surface of the drying space part 140 to the upper surface of the drying space part 140 is 10, the ventilation pipe 300 is installed at one side of the drying space part 140, 3, 5, 7, and 9, and the conveying roller 200 is installed at the other side of the drying space part 140, and may be installed at a height of 2, 4, 6, will be.

At this time, the ventilating pipe 300 serves to float the fabric and to dry the fabric using hot air. The conveying roller 200 not only transports the fabric but also the tension of the fabric passing through the ventilating pipe 300 And the like.

That is, the raw material passing through the vent pipe 300 is not directly contacted with the vent pipe 300, but because of the hot air continuously blown from the hot air injection hole 320 of the vent pipe 300, The conveying roller 200 is installed to prevent the fabric from meandering by holding the tension of the floating fabric at a constant level in such a state that the fabric is floated from the outer periphery of the pipe 300. [

A plurality of the discharge rollers 200 are vertically spaced apart from each other in the drying space 140 and a plurality of the discharge pipes 300 are vertically spaced from each other in the drying space 140, It is preferable to understand that the vent pipe 300 and the conveying roller 200 may be installed on one side and the other side of the conveying roller 200. In this case, The conveying roller 200 and the ventilating pipe 300, and gradually dried down in a zigzag manner.

The IR heater 400 is disposed at least one of the upper side and the lower side in the drying space part 140. By increasing the internal temperature of the drying space part 140, the drying of the fabric is more smooth .

The heated air outlet 110 is formed by drilling at least one of the drying chambers 100 so that air in the drying chamber 100 can be discharged to the outside.

The heated air outlet 110 is configured to discharge the air inside the drying chamber 100 to the hot air supplier 600 and the blow fan 630 of the hot air supplier 600 is connected to the heated air outlet 600. [ It is more preferable that the air blown out from the heat exchanger 110 is sucked so as to circulate the hot air to increase the heat efficiency.

The hot air inlet 520 is formed at one side of the hot air distributor 500 to receive hot air from the hot air supplying device 600 in combination with the hot air supplying device 600.

The hot air distribution port 510 is connected to the hot air inlet 310 of the plurality of the vent pipes 300 so that the hot air supplied through the hot air inlet 520 is supplied to the plurality of the vent pipes 300 And the other side is provided with a plurality of units so as to be evenly distributed and injected.

The hot air blowing port 620 is formed at one side of the hot air supplying device 600 and can discharge the hot air generated by the hot air supplying device 600 toward the hot air inlet 520 of the hot air distributor 500 And is configured to be able to be coupled to the hot air inlet 520. [

The blow fan 630 sucks air from the outside and discharges air through the hot air blowing port 620.

The suction air heating unit 640 is configured to apply heat to the air sucked from the outside through the blow fan 630.

The circulating hot air inlet 610 is connected to the blow fan 630 so that the blow fan 630 can suck heated air in the drying chamber 100 from the heated air outlet 110 of the drying chamber 100, (630).

Accordingly, the circulating hot air inlet 610 is configured such that the blow fan 630 sucks the air exhausted from the heated air outlet 110, so that the hot air can be circulated to increase the heat efficiency.

Accordingly, the present invention minimizes the space required to dry the fabric by gradually transferring the fabric downward in a zigzag manner in the drying chamber 100, thereby maximizing the utilization of the space. Therefore, There is an effect of providing a fabric drying system capable of drying.

In addition, the present invention provides a fabric drying system capable of minimizing meandering of fabrics by forming a plurality of hot air pipes and feed rollers 200 in a floating drying process by hot air.

In addition, since hot air is directly sprayed on the fabric and the fabric is gradually transferred downward in a zigzag manner in the drying chamber 100, the fabric remains in the drying chamber 100 for a long time, The heat in the drying chamber 100 heated by the IR heater 400 is sucked into the hot air supplier 600 and reheated to the drying chamber 100 It is effective to provide a fabric drying system capable of increasing thermal efficiency and energy efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is not.

100: drying chamber
200: Feed roller
300: Exhaust pipe
400: IR heater
500: Hot air distributor
600: hot wind feeder

Claims (2)

delete 1. A raw-material floating drying system comprising a drying chamber for allowing a fabric to be floated by hot air and dried,
A fabric inlet 120 formed by perforating one side of the fabric so that the fabric is drawn into the drying chamber 100,
A drying space part 140 formed so as to dry the raw material introduced through the raw material drawing part 120,
A fabric take-out part 130 formed by perforating the lower part of the other side so as to draw the dried fabric in the drying space part 140 to the outside of the drying chamber 100,
A plurality of conveying rollers 200 installed vertically spaced apart from each other in the drying space 140,
A plurality of openings are formed on the other side of the drying space 140 so as to be vertically spaced from each other, and the open end of the open space is formed in a cylindrical shape having one end opened and the other end closed, An exhaust pipe 300 including a plurality of perforated hot air blow holes 320 formed at an outer periphery thereof to blow hot air injected through the hot air inlet 310 and dry the fabric,
An IR heater 400 configured at least one of the upper side and the lower side of the drying space 140,
A drying chamber 100 including a heating air outlet 110 formed by piercing at least one of the drying chambers 100 so that the air inside the drying chamber 100 can be discharged to the outside;
A hot air inlet 520 formed at one side to receive hot air from the hot air supplier 600 in combination with the hot air supplier 600,
The hot air inlet 520 is connected to the hot air inlet 310 of the plurality of the vent pipes 300 so that the hot air supplied through the hot air inlet 520 can be uniformly distributed to the plurality of the vent pipes 300, A hot air distributor 500 including at least one hot air distributing port 510 configured in the hot air distributor 500;
A hot air jet opening 620 through which hot air is discharged,
A blow fan 630 configured to suck air from the outside and discharge air through the hot air blowing port 620,
Suction air for applying heat to the air sucked externally through the blow fan 630 is supplied to the heating unit 640,
The blowing fan 630 is configured to circulate the air in the drying chamber 100 through a circulation path formed on one side of the blowing fan 630 so that the blowing fan 630 can draw in the heated air in the drying chamber 100 from the heated air outlet 110 of the drying chamber 100. [ And a hot air supply unit 600 including a hot air inlet 610,
The drying space 140 may further include an injection nozzle capable of spraying a coating liquid or a foamed liquid on a fabric,
The conveying roller 200 and the ventilating pipe 300 are respectively installed in a plurality of different heights from the ground so that the raw material passes through the conveying roller 200 and the ventilating pipe 300, Conveyed and dried,
The heated air outlet 110 is configured to discharge the air inside the drying chamber 100 to the hot air supplier 600 and the blow fan 630 of the hot air supplier 600 is connected to the heated air outlet 110 is configured to suck air through the circulating hot air inlet 610 so that the heated air discharged from the drying chamber 100 is recycled to the drying chamber 100 and hot air is circulated Features vertical and horizontal transfer type fabric floating drying system.

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