KR20230012808A - Method of transferring surface and Polyester sound absorbing board surface transfer device - Google Patents

Abstract

The present invention relates to a transfer device for transferring a pattern to a surface of a polyester board and, more specifically, to a device for making transfer on a surface of a polyester sound absorbing board and a method for transferring a pattern onto the surface of a polyester sound absorbing board by using the same, wherein a polyester sound absorbing board is transported by a conveyor and thermal compression transfer, discharge, and cooling are continuously performed on the conveyor of its own. In the thermal compression step and the discharge step, external contact and the deformation caused thereby are prevented, and in addition, heat is also applied to a lower part in a step of transferring the pattern onto an upper part surface through thermal compression to prevent deformation such as bending caused by temperature deviation in the cooling step.

Description

Polyester sound absorbing board surface transfer device and polyester sound absorbing board surface transfer method using the same {Method of transferring surface and Polyester sound absorbing board surface transfer device}

The present invention relates to a transfer device for transferring a pattern to the surface of a polyester board, and more particularly, to a transfer structure through a conveyor and to prevent deformation due to softening in the heat press process and to maintain the shape during the cooling process. It relates to a polyester sound-absorbing board surface transfer device and a polyester sound-absorbing board surface transfer method using the same.

In general, building insulation boards are used to obtain insulation effects by being installed on walls or ceilings when constructing various buildings such as apartments or office buildings. As it is not stolen, the operation of the cooling system in summer and the operation of heating system in winter can be greatly reduced, resulting in reduction of cooling and heating costs according to building management.

On the other hand, in the case of such a typical insulation board, it is possible to construct a wall by constructing a gypsum board on the surface in a state in which Styrofoam is attached to the wall.

On the other hand, as mechanical civilization develops in recent years, noise generation due to the use of various means of transportation and industrial machinery has been raised as a serious pollution problem. The best way to solve noise pollution known to date is to reduce the noise generated from the noise source, which requires mechanical improvement, but the range of improvement is virtually limited due to operating conditions, operating cost and efficiency.

Accordingly, in recent years, the number of classes that give priority to solving noise problems in the process of selecting a building is increasing, and for these demand classes, sound absorption, dustproofness, and car Interior materials having sound, etc. are installed in wall structures, and as a representative example, polyester sound-absorbing insulation boards, which are lightweight, have excellent insulation, sound absorption, durability, and moisture control, and form an eco-friendly compressed plate body, are in the limelight. In particular, a polyester sound-absorbing board is widely constructed for soundproofing, such as theaters or auditoriums.

On the other hand, most of the polyester sound-absorbing board constructed as described above has an interior effect by giving various colors to the surface due to the nature of being constructed in an exposed structure in which the surface is exposed to the room, and the printing printing method of the surface or its poly In the process of manufacturing the ester sound-absorbing board, it was performed by adding fibers having dyed or colored fibers.

However, the printing method as described above is that general polyester sound-absorbing boards are easily spread when ink is sprayed on the surface due to the nature of the fiber structure, so it is impossible to produce delicate patterns, so only monotonous patterns or colors are printed, and various designs are produced. There was an impossible problem, and in particular, this printing printing was possible to print on the plane, but there was a problem that printing on the side was impossible.

In addition, when dyeing or adding colored fibers, etc., it is possible to simply produce colors, but it is impossible to produce patterns. there was.

Accordingly, in recent years, a method of thermally transferring a pattern to the surface of a polyester sound-absorbing board has been proposed to solve the above problems.

However, the simple thermal transfer method as described above has a property of softening when heat is applied due to the nature of the polyester sound-absorbing board, and when handling it, even a small impact such as deformation occurs, such as deformation. There were serious problems that arose.

In addition, there was a problem that the polyester sound-absorbing board is easily bent due to a shrinkage phenomenon in the cooling process due to the temperature difference with the lower portion when heat is applied only to the upper portion for transfer.

Korean Patent Publication No. 10-1990-0006149. Korean Patent Registration No. 10-0409115. Korean Patent Registration No. 10-0533318.

The present invention has been devised to solve the above problems, by configuring the polyester sound-absorbing board to be transported through a conveyor and thermally pressurized transfer, discharge and cooling performed continuously in the conveyor itself, the thermal pressurization process and the discharge process It is an object of the present invention to provide a polyester sound absorbing board surface transfer device and a polyester sound absorbing board surface transfer method using the same for preventing external contact and deformation accordingly.

In addition, by applying heat together to the lower part in the transfer process through thermal pressure on the upper surface, a polyester sound absorbing board surface transfer device for preventing deformation such as bending due to temperature difference in the cooling process and the surface of the polyester sound absorbing board using the same It is an object of the present invention to provide a transfer method.

As a specific means for achieving the above object, a supply conveyor that supplies and transports the polyester sound absorbing board and has pressure supports formed at a height lower than the height of the polyester sound absorbing board supplied to the rear sides to repeat driving and stopping;

A pattern transfer unit for thermally transferring a pattern to the upper surface of the polyester sound absorbing board that is formed and transported at the rear of the supply conveyor;

A cooling conveyor that is continuously formed at the rear of the supply conveyor and discharges and cools the polyester sound absorbing board on which the pattern is transferred; and

It is configured to include the supply conveyor, the pattern transfer unit, and a control unit for controlling driving of the cooling conveyor,

The pattern transfer unit,

An upper press hot plate that is formed spaced apart from the upper part of the supply conveyor and operates up and down, and heat-presses the upper part of the polyester sound absorbing board with heat of 180 to 200 ° C.;

A polyester sound absorbing board formed between the supply conveyors and heat-pressed is configured to include a lower press hot plate for providing heat of 80 to 100 ° C. at the bottom of the polyester sound absorbing board and supporting the polyester sound absorbing board,

A polyester sound-absorbing board surface transfer device is used,

In the state where the transfer paper of the pattern to be transferred is placed on the upper surface, the polyester sound absorbing board is seated at the beginning of the supply conveyor, transferred to the rear pattern transfer part of the supply conveyor, and the upper part of the lower press hot plate where heat of 80 ~ 100 ° C is applied Sound absorbing board supply step of stopping the operation of the supply conveyor in a state located in;

A pattern transfer step of lowering the upper press hot plate to which heat of 180 to 200 ° C. has been applied in the pattern transfer unit and thermally pressing it to the height of the pressure support to heat-compress the polyester sound-absorbing board and transfer the pattern of the transfer paper to the upper surface by heat-sublimation;

A sound-absorbing board discharging step of discharging the polyester sound-absorbing board to a cooling conveyor that is driven and discharged by driving a supply conveyor in a state in which the pressurizing force is released by raising the upper press hot plate; and

It can be achieved by performing a sound absorbing board cooling step of cooling the discharged polyester sound absorbing board through a cooling conveyor while being cooled in a cooling conveyor mesh belt.

As described above, the polyester sound absorbing board surface transfer device of the present invention and the polyester sound absorbing board surface transfer method using the same are configured so that the polyester sound absorbing board is transported through a conveyor, and thermal pressure transfer, discharge and cooling are performed continuously in the conveyor itself Invar, external contact is prevented from thermal pressure transfer to cooling, and thus deformation such as a pressing phenomenon due to external shock can be prevented.

In addition, by applying a temperature of 180 ~ 200 ℃ in the upper part and performing heating at a temperature of 80 ~ 100 ℃ in the lower part when thermally pressurizing from the top, the temperature deviation is minimized to prevent bending deformation due to the temperature deviation during the cooling process. can be obtained.

1 is a side cross-sectional overall view of the polyester sound-absorbing board surface transfer device of the present invention.
Figure 2 is a plan overall view of the polyester sound-absorbing board surface transfer device of the present invention.
Figure 3 is a main part of the supply conveyor of the polyester sound-absorbing board surface transfer device of the present invention.
Figure 4 is a main part of the pattern transfer portion of the polyester sound-absorbing board surface transfer device of the present invention.
Figure 5 is a main part of the cooling conveyor of the polyester sound-absorbing board surface transfer device of the present invention.
Figure 6 is an overall process diagram showing the polyester sound-absorbing board surface transfer method using the present invention polyester sound-absorbing board surface transfer device.
Figure 7 is a simplified view of the sound-absorbing board supply step of the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention.
Figure 8 is a simplified view of the pattern transfer step of the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention.
Figure 9 is a simplified view of the sound-absorbing board discharge step of the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention.
Figure 10 is a simplified view of the sound-absorbing board cooling step of the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention.
Figure 11 is a simplified view of the polyester sound-absorbing board produced by the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention.

The terms or words used in this specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventors may appropriately define the concept of terms in order to explain their invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so that they can be substituted at the time of this application. It should be understood that there may be many equivalents and variations.

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

1 is a side cross-sectional view of the surface transfer device for the polyester sound-absorbing board of the present invention, Figure 2 is an overall plan view of the surface transfer device for the polyester sound-absorbing board of the present invention, Figure 3 is a surface transfer device for the polyester sound-absorbing board of the present invention 4 is a main part view of the pattern transfer part of the polyester sound absorbing board surface transfer device of the present invention, and FIG. 5 is a main part view of the cooling conveyor of the polyester sound absorbing board surface transfer device of the present invention.

1 to 5, the polyester sound-absorbing board surface transfer device 1 of the present invention is composed of a supply conveyor 100, a pattern transfer unit 200, a cooling conveyor 300, and a control unit 400. do.

First, the supply conveyor 100 enables supply and transport of the polyester sound absorbing board in configuring the polyester sound absorbing board surface transfer device 1 of the present invention.

To this end, in the present invention, the supply conveyor 100 is configured with a supply conveyor frame body 110 first, and the supply conveyor frame body 110 is configured to form a frame shape forming a front and rear length.

At this time, it is preferable to configure the supply conveyor frame body 110 to be spaced upward from the ground through the supply conveyor support legs 111 and the like.

And in the supply conveyor frame body 110, a pair of pressure supports 101 at a height lower than the thickness of the polyester sound absorbing board to transfer the pattern to the upper position at the rear, that is, the position of the pattern transfer unit 200 to be described later (101 ') is configured to protrude, at this time, the height of the pressure support (101) (101 ') will be preferably configured to achieve a height lower than the thickness of the polyester sound absorption board by about 3 ~ 5mm.

In addition, the supply conveyor 100 is composed of a supply conveyor belt roller 120, and the supply conveyor belt roller 120 is configured to be arranged in a plurality in the longitudinal direction inside the supply conveyor frame body 110, at this time, any one A supply conveyor drive motor 121 for imparting rotational driving force is mounted on the supply conveyor belt roller 120.

On the other hand, in the present invention, each or both end sides of the supply conveyor belt roller 120 are connected through a chain sprocket (not shown in the drawing) so that the supply conveyor drive motor 121 can be configured to operate in conjunction with each other. something to do.

In addition, the supply conveyor 100 connects the supply conveyor belt roller 120 to form a supply conveyor mesh belt 130 that rotates according to the rotational drive of the supply conveyor belt roller 120.

At this time, in the present invention, the supply conveyor mesh belt 130 is configured to form a metal mesh to enable air communication, which enables air communication and at the same time when heat-pressed in the pattern transfer unit 200 to be described later. to withstand heat

That is, the supply conveyor 100 is configured to supply the pattern transfer unit 200 to be described later to supply the polyester sound absorbing board to transfer the pattern.

The pattern transfer unit 200 is configured to convey a pattern to the upper surface of the polyester sound absorbing board supplied through the supply conveyor 100 in constituting the polyester sound absorbing board surface transfer device 1 of the present invention, the pattern transfer Part 200 is configured on the rear side of the supply conveyor 100.

To this end, in the present invention, the pattern transfer unit 200 is first composed of an upper press hot plate 210, and the upper press hot plate 210 is spaced apart from the top of the supply conveyor 100 and uses a normal cylinder or motor. It is operated up and down by the operation of the driving means 211 and is configured to press the upper part of the polyester sound absorbing board.

At this time, in the present invention, the upper press hot plate 210 is configured to apply heat of 180 to 200 ° C. At this time, the means for applying heat to the upper press hot plate 210 is not limited, but a conventional heater (drawing) (not shown) may be installed, or the heat medium may be circulated inside the upper press hot plate 210 through a heat transfer device such as a boiler (not shown).

In addition, in the present invention, the upper press hot plate 210 constituting the pattern transfer unit 200 may be configured to be mounted on a general support frame 230.

On the other hand, in the present invention, when applying heat to the upper press hot plate 210, 180 ~ 200 ℃ is applied, if the temperature is applied below 180 ℃, the transfer surface of the transfer paper is properly on the upper surface of the polyester sound-absorbing board Transfer does not occur, and when a temperature of 200 ° C or higher is applied, the polyester sound-absorbing board made of fiber material can be excessively melted during the thermal pressing process due to its nature, and stable transfer and Protection of the polyester sound absorbing board 10 will be possible.

In addition, the pattern transfer unit 200 is composed of a lower press hot plate 220 corresponding to the upper press hot plate 210, and the lower press hot plate 220 is formed between the supply conveyor 100, preferably is fixed to the supply conveyor frame body 110 between the upper and lower rows of the supply conveyor mesh belt 130 of the supply conveyor 100, and is formed in contact with the upper row of the supply conveyor mesh belt 130, and the upper press plate 210 ) is configured to support the lower portion when pressing the polyester sound-absorbing board.

At this time, in the present invention, the lower press hot plate 220 is configured to apply heat of 80 to 100 ° C. At this time, the means for applying heat to the lower press hot plate 220 is not limited, but a conventional heater (drawing) (not shown) may be installed, or the heat medium may be circulated inside the lower press hot plate 220 through a heat transfer device such as a boiler (not shown).

On the other hand, in the present invention, in applying heat to the lower press hot plate 220, 80 to 100 ° C is applied, if the temperature is applied to 80 ° C or less, the heat applied from the upper part of the polyester sound absorbing board and the heat applied from the lower part Variation may cause deformation of the polyester sound-absorbing board, and when a temperature of 100 ° C or higher is applied, the polyester sound-absorbing board made of fiber material melts from the bottom to the bottom during the heat press process, so that the proper compression of the upper part is achieved. There is a problem that cannot be supported, and by applying a temperature of 80 ~ 100 ℃, stable transfer and protection of the polyester sound-absorbing board will be possible.

That is, the pattern transfer unit 200 heat-presses the upper surface of the polyester sound-absorbing board supplied through the supply conveyor 100 through the lifting operation of the upper press hot plate 210 to melt and compress the polyester sound-absorbing board and transfer paper. It is configured to thermally transfer the pattern.

The cooling conveyor 300 is configured to discharge and cool the polyester sound absorbing board on which the pattern is transferred from the pattern transfer unit 200 in constituting the polyester sound absorbing board surface transfer device 1 of the present invention, the supply conveyor ( 100) is composed continuously.

To this end, in the present invention, the cooling conveyor 300 is first composed of a cooling conveyor frame 310, the cooling conveyor frame 310 is configured to form a frame body forming a front and rear length, and the supply conveyor frame 110 ) are continuously arranged behind the

At this time, it is preferable that the cooling conveyor frame body 310 is configured to be spaced upward from the ground through a cooling conveyor support leg 311 or the like.

In addition, the cooling conveyor 300 is composed of cooling conveyor belt rollers 320, and the cooling conveyor belt rollers 320 are arranged in plurality in the longitudinal direction inside the cooling conveyor frame 310, at this time, any one A cooling conveyor drive motor 321 is mounted on the cooling conveyor belt roller 320 for imparting rotational driving force.

On the other hand, in the present invention, each or both end sides of each cooling conveyor belt roller 320 are connected through a chain sprocket (not shown in the drawing), so that the cooling conveyor drive motor 321 is driven. will be natural

In addition, the supply conveyor 100 connects the cooling conveyor belt roller 320 to form a cooling conveyor mesh belt 330 that rotates according to the rotational drive of the cooling conveyor belt roller 320.

At this time, in the present invention, the cooling conveyor mesh belt 330 is configured to form a metal mesh to enable air communication, which is to enable air communication.

That is, the cooling conveyor 300 is configured to receive and discharge the polyester sound-absorbing board on which the pattern is transferred from the pattern transfer unit 200 and perform cooling in the discharge process.

On the other hand, in configuring the cooling conveyor 300 in the present invention, in order to increase the cooling efficiency, at least one cooling fan 340 is further included in the upper or lower part or upper and lower parts of the cooling conveyor mesh belt 330 As can be configured, the cooling fan 340 will be able to improve its cooling efficiency at a high temperature such as in summer.

In addition, the cooling conveyor frame body 310 further includes a flat roller 350 that presses the upper surface of the polyester sound-absorbing board discharged at regular intervals from a position spaced upward from the cooling conveyor mesh belt 330. can be configured including

The control unit 400 is configured to control the driving of the supply conveyor 100, the pattern transfer unit 200, and the cooling conveyor 300 in configuring the polyester sound-absorbing board surface transfer device 1 of the present invention. do.

To this end, the control unit 400 first controls the supply conveyor 100, but preferably controls the driving and stopping of the supply conveyor driving motor 121 to accurately transfer the polyester sound-absorbing board supplied to the pattern transfer unit 200. After the positioning and transfer work on, the discharge will be controlled.

In addition, the control unit 400 controls the pattern transfer unit 200, and preferably controls the lifting operation of the upper press hot plate 210.

In addition, the controller 400 controls the cooling conveyor 300, but preferably receives the polyester sound-absorbing board discharged from the supply conveyor 100 through the continuous operation of the cooling conveyor driving motor 321. Allows for rapid evacuation and cooling.

Hereinafter, a polyester sound absorbing board surface transfer method using the present invention polyester sound absorbing board surface transfer device having the above configuration will be described in detail with reference to the accompanying drawings.

Figure 6 is an overall process diagram showing the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention.

As shown in FIG. 6, the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention is possible by using the polyester sound-absorbing board surface transfer device 1 with reference to FIGS. 1 to 5, sound absorption The board supply step (S100), the pattern transfer step (S200), the sound absorbing board discharge step (S300), and the sound absorbing board cooling step (S400) are performed.

First, the sound absorbing board supply step (S100) is performed,

This is configured to safely supply the polyester sound-absorbing board 10 to be transferred to the pattern transfer unit 200 in performing the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention.

That is, with reference to FIG. 7, it is possible through the supply conveyor 100, first, the start end of the supply conveyor 100, that is, the polyester sound absorbing board 10 is seated and mounted on the top of the supply conveyor mesh belt 130, On the upper surface of the polyester sound-absorbing board 10, the transfer paper 20 printed with the pattern to be transferred may be mounted while placing it thereon.

And by driving the supply conveyor 100 through the control of the control unit 400, the polyester sound absorbing board 10 is transported to the rear pattern transfer unit 200 on the supply conveyor mesh belt 130, When the polyester sound absorbing board 10 is positioned on top of the lower press hot plate 220 to which heat of 80 to 100 ° C. is applied, the driving of the supply conveyor 100 may be stopped.

Thereafter, the pattern transfer step (S200) is performed,

In performing the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention, the pattern of the transfer paper 20 is thermally transferred to the upper surface of the polyester sound-absorbing board 10 supplied as described above. will do

That is, with reference to FIG. 8, in the control unit 400, the polyester sound absorbing board 10 is located on the rear side of the supply conveyor 100, that is, on the upper part of the lower press hot plate 220 of the pattern transfer unit 200, as described above. While driving the upper press hot plate 210 while lowering the upper press hot plate 210 to the pressure supports 101 and 101' through the operation of the driving means 211 and applying heat of 180 to 200 ° C. The upper surface of the ester sound absorbing board 10 is thermally pressed for about 15 to 25 seconds.

Accordingly, the upper press hot plate 210 melts the upper surface of the polyester sound absorbing board 10 to planarize the surface, and at the same time, the step difference between the polyester sound absorbing board 10 and the pressure supports 101 and 101' Compression is performed, and at this time, the pattern formed on the transfer paper 20 is thermally sublimated onto the flattened upper surface.

On the other hand, in the present invention, 180 ~ 200 ℃ is applied as described above, if the temperature is applied below 180 ℃, the transfer surface of the transfer paper 20 is not properly transferred to the upper surface of the polyester sound-absorbing board , When a temperature of 200 ° C or higher is applied, the polyester sound absorbing board made of fiber material can be excessively melted in the process of thermal pressing due to its nature. ) will be protected.

In addition, in the present invention, the upper press hot plate 210 is heat-pressed for about 15 to 25 seconds as described above, if the time is applied to 15 seconds or less, the transfer surface of the sublimation transfer paper 20 is a polyester sound absorbing board Thermal sublimation transfer is not properly performed on the upper surface of (10), and when performed for more than 25 seconds, the polyester sound absorbing board 10 may cause excessive melting and deformation during the heat pressing process due to the nature of the fiber material. , By heat-pressing the time for 15 to 25 seconds, it is possible to prevent the stability of the thermal sublimation transfer and the deformation due to the melting of the polyester sound absorbing board 10.

In addition, in the process of pressing through the upper press hot plate 210 as described above, the lower part is supported by the lower press hot plate 220, in the present invention, the lower press hot plate 220 of the polyester sound absorbing board 10 Heat of 80~100℃ is applied to the bottom.

This is because the heat of the polyester sound absorbing board 10 is applied later and the melted upper part causes a shrinkage phenomenon due to the temperature difference during the cooling process, causing bending deformation of both sides of the polyester sound absorbing board 10 going up. , It is to minimize the temperature deviation by applying heat of 80 ~ 100 ℃ from the lower part to prevent its bending deformation.

On the other hand, in the present invention, when applying heat to the lower press hot plate 220, 80 to 100 ° C is applied if the temperature is lower than 80 ° C. The deformation of the polyester sound-absorbing board may occur, and when a temperature of 100 ° C or higher is applied, the polyester sound-absorbing board made of fiber material melts from the bottom to the bottom during the thermal pressing process, so that the proper compression of the upper part is not achieved. There is a problem that cannot be solved, and by applying a temperature of 80 to 100 ° C, stable transfer and protection of the polyester sound-absorbing board will be possible.

That is, in the pattern transfer step (S200), the transfer surface of the transfer paper 20 is transferred to the upper surface of the polyester sound absorbing board 10 through the thermal pressure of the upper press hot plate 210, the polyester sound absorbing board 10 ) is formed on the upper surface of the pattern.

Thereafter, the sound absorbing board discharge step (S300) is performed,

This is to discharge the polyester sound-absorbing board 10 having the pattern transferred as described above in performing the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention.

That is, with reference to FIG. 9, the control unit 400 lifts the upper press hot plate 210 to release the pressing force and drive the stopped supply conveyor 100, the polyester sound absorbing board 10 is the supply conveyor 100 ) to be moved to the discharge and cooling conveyor 300.

Thereafter, the sound absorbing board cooling step (S400) is performed,

In performing the polyester sound-absorbing board surface transfer method using the polyester sound-absorbing board surface transfer device of the present invention, the polyester sound-absorbing board 10 discharged as described above is received and discharged and cooled.

That is, the polyester sound absorbing board 10 discharged with reference to FIG. 10 is moved to the cooling conveyor 300 driven by the control of the control unit 400. At this time, the cooling conveyor mesh belt 330 of the cooling conveyor 300 ) is capable of air communication, so natural cooling is possible during the movement process.

On the other hand, in the cooling conveyor 300, when the flat roller 350 is further configured on the top of the cooling conveyor mesh belt 330, the upper surface of the polyester sound absorbing board 10 is pressed to a certain extent in the moving cooling process, so that the poly It will be possible to more effectively prevent the bending deformation of the ester sound-absorbing board (10).

On the other hand, in the present invention, natural cooling may be possible in the process of moving through the cooling conveyor 300 in the case of spring, autumn, and winter when the room temperature is cool during the cooling process as described above. The cooling time may be considerable, and at this time, cooling may be possible by driving the cooling fan 340 .

Accordingly, when the transfer paper 20 is removed with reference to FIG. 11 through a series of processes as described above, the transfer formation of the pattern 11 on the upper surface of the polyester sound-absorbing board 10 is possible.

As described above, the polyester sound-absorbing board surface transfer device and the polyester sound-absorbing board surface transfer method using the same of the present invention use the polyester sound-absorbing board surface transfer device in transferring and forming a pattern on the surface of the polyester sound-absorbing board, but in the working process The deformation of the polyester sound-absorbing board is prevented.

10: polyester sound absorbing board 20: transfer paper
100: supply conveyor 101: pressure support
110: supply conveyor frame 120: supply conveyor belt roller
130: supply conveyor mesh belt
200: pattern transfer unit 210: upper press hot plate
220: lower press hot plate
300: cooling conveyor 310: cooling conveyor frame
320: cooling conveyor belt roller 330: cooling conveyor mesh belt
340: cooling fan 350: flat roller
400: control unit

Claims (6)

A supply conveyor 100 that supplies and transports a polyester sound absorbing board and has pressure supports 101 and 101' formed on both rear sides at a height lower than the height of the polyester sound absorbing board to be supplied to repeat driving and stopping;
A pattern transfer unit 200 for thermally transferring a pattern to the upper surface of the polyester sound absorbing board that is formed and transported at the rear of the supply conveyor 100;
A cooling conveyor 300 that is continuously formed at the rear of the supply conveyor 100 to discharge and cool the polyester sound absorbing board having the pattern transferred thereto; and
It is configured to include the supply conveyor 100, the pattern transfer unit 200, and the control unit 400 for controlling driving of the cooling conveyor 300,
The pattern transfer unit 200,
An upper press hot plate 210 that is formed spaced apart from the top of the supply conveyor 100 and operates up and down, and thermally presses the upper part of the polyester sound absorbing board with heat of 180 to 200 ° C.;
It is formed between the supply conveyor 100 and includes a lower press hot plate 220 for providing heat of 80 to 100 ° C. at the lower part of the polyester sound absorbing board that is heat-pressed and supporting the polyester sound absorbing board. A polyester sound-absorbing board surface transfer device.
According to claim 1,
The supply conveyor 100,
a supply conveyor frame body 110 having pressure supports 101 and 101' formed on both sides of the rear upper portion where the pattern transfer unit 200 is located;
A plurality of supply conveyor belt rollers 120, which are disposed in a plurality in the longitudinal direction inside the supply conveyor frame body 110, one of which is equipped with a supply conveyor driving motor 121;
It is configured to include a supply conveyor mesh belt 130 made of metal mesh to connect the supply conveyor belt roller 120, rotate by driving the supply conveyor belt roller 120, and enable air communication,
The lower press hot plate 220 is a polyester sound absorbing board surface transfer device, characterized in that configured to be formed in contact with the lower surface of the upper side between the upper and lower parts of the supply conveyor mesh belt 130.
According to claim 1,
The cooling conveyor 300,
Doedoe continuously formed in the rear of the supply conveyor 100, the cooling conveyor frame body 310 forming the front and rear length;
A plurality of cooling conveyor belt rollers 320 disposed in a plurality in the longitudinal direction inside the cooling conveyor frame body 310, one of which is equipped with a cooling conveyor driving motor 321;
It is characterized by comprising a cooling conveyor mesh belt 330 made of metal mesh to connect the cooling conveyor belt roller 320 to rotate by driving the cooling conveyor belt roller 320 and to enable air communication Polyester sound absorbing board surface transfer device.
According to claim 3,
The polyester sound-absorbing board surface transfer device, characterized in that it further comprises at least one cooling fan (340) in the upper or lower part or upper and lower parts of the cooling conveyor mesh belt (330).
According to claim 3,
In the cooling conveyor frame body 310,
Polyester sound-absorbing board surface transfer device, characterized in that it further comprises a flat roller 350 at regular intervals at a position spaced apart from the top of the cooling conveyor mesh belt 330.
Using the polyester sound-absorbing board surface transfer device according to any one of claims 1 to 5,
In a state where the transfer paper of the pattern to be transferred is placed on the upper surface, the polyester sound-absorbing board is seated at the beginning of the supply conveyor 100 and transferred to the rear side pattern transfer unit 200 of the supply conveyor 100 and 80 to 100 A sound absorbing board supply step (S100) of stopping the operation of the supply conveyor 100 in a state located on top of the lower press hot plate 220 to which the heat of ℃ is applied;
In the pattern transfer unit 200, the upper press hot plate 210 to which heat of 180 ~ 200 ℃ is applied is lowered and thermally pressed to the height of the pressure support 101 (101 ') to heat-compress the polyester sound-absorbing board and transfer paper to the upper surface A pattern transfer step of thermally sublimating the pattern of (S200);
A sound absorbing board discharging step (S300) of discharging the polyester sound absorbing board to the cooling conveyor 300 which is driven and discharged by driving the supply conveyor 100 in a state in which the pressing force is released by raising the upper press hot plate 210; and
Polyester using a polyester sound absorbing board surface transfer device, characterized in that by performing a sound absorbing board cooling step (S400) of cooling the discharged polyester sound absorbing board through the cooling conveyor 300 while cooling it in the cooling conveyor mesh belt 330 Ester sound absorption board surface transfer method.

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