KR102333793B1 - Thermal press apparatus for adhering cloth - Google Patents

Abstract

Disclosed is a heat press device for fabric bonding that can thermally bond a long fabric with a uniform pressure through a hot melt adhesive and absorb thermal expansion of a heater due to temperature. The heat press apparatus includes first and second heater units disposed to face up and down, a cylinder for elevating the first heater unit, a support unit interposed between the first heater unit and the cylinder, and each unit is mounted and at least the first heater unit, in which a plurality of independent heater cartridges are arranged in series through a compression spring in the longitudinal direction to absorb thermal expansion of the heater cartridge.

Description

Thermal press apparatus for adhering cloth

The present invention relates to a hot press device, and more particularly, to a fabric bonding hot press device capable of thermally bonding a long fabric with a uniform pressure through a hot melt adhesive and absorbing thermal expansion of a heater due to temperature. .

In order to finish the fabric when making bedding, place the fabric overlapping each other on the heating plate with a built-in heater and having the hot melt adhesive interposed, and lower the press to press the heating plate to a preset pressure, the press presses the heating plate. In this state, as the fabric is heated by the press and the heating plate, the hot melt adhesive interposed therebetween melts and thermally bonds the fabric to each other.

According to this prior art, when the length of the finished part of the fabric is long, since the corresponding part of the fabric is divided into several parts and subjected to a hot pressing process, there is a problem in that work efficiency is deteriorated.

To solve this problem, a heater having a length corresponding to the finished part of the fabric may be used. When a long-length heater is used, bending occurs due to the temperature deviation of the heater itself.

Specifically, during the thermal bonding process, the temperature of the heater rises from approximately 180°C to 200°C, and the length of the heating plate surrounding the heater is increased by this temperature.

However, since the heating plate is in a fixed state in combination with the press, it cannot absorb the increased length and is bent.

As a result, there is a point in the finished part of the fabric that is not subjected to pressure by the press, and the hot melt adhesive interposed between the fabrics at the breaking point does not melt, resulting in a gap.

In addition, the length of the press becomes longer in response to the long heater. However, when multiple cylinders are used in a single long press, the operation time of each cylinder cannot be precisely adjusted, resulting in a time difference in pressure transmission through the press. Accordingly, the press is deformed, and a constant pressure cannot be transmitted to the fabric.

Accordingly, it is an object of the present invention to provide a hot press device capable of delivering uniform pressure to the fabric at all times even if the length is long.

Another object of the present invention is to provide a hot press apparatus for bonding fabrics that can reliably absorb longitudinal expansion of a heater due to temperature.

Another object of the present invention is to provide a heat press apparatus for bonding fabrics that can reliably and efficiently thermally bond a finished part of a long fabric.

Another object of the present invention is to provide a hot press device for fabric bonding that does not cause deformation in the press even if there is a time difference in transmission of the pressure applied to the long press.

The above object, the first and second heater units disposed to face up and down; a pressurizing unit for elevating the first heater unit; a support unit interposed between the first heater unit and the pressurizing unit; and a structural frame on which each unit is mounted, wherein at least the first heater unit has a plurality of independent heater cartridges arranged in series through a compression spring in the longitudinal direction to absorb thermal expansion of the heater cartridge. It is achieved by a heat press device for fabric adhesion.

Preferably, the heater cartridge comprises: a heater to which power is applied independently; and a heater frame having both ends open and enclosing the heater with an insulating material interposed therebetween, and the compression spring is interposed between the adjacent heaters.

Preferably, the support unit, a spring bracket unit coupled to the end of the cylinder rod; and a heater bracket positioned and coupled to the lower portion of the spring bracket unit, wherein the support unit absorbs horizontal thermal expansion of the heater unit while elastically transmitting the pressing force of the cylinder to the first heater unit.

Preferably, the spring bracket unit includes: a cylinder spring bracket coupled to an end of the cylinder rod; an upper spring plate coupled to a lower portion of the cylinder spring bracket by a first bolt; a lower spring plate coupled to the upper spring plate by a second bolt; and a compression spring interposed between the upper spring plate and the lower spring plate, wherein a plurality of the heater brackets have the same length as the heater cartridge and are arranged in series and coupled to the heater cartridge by a third bolt, , At the ends of the heater brackets located at both ends, a spring bracket extends downward and a spring bushing protrudes inward from the center of the spring bracket, so that a compression spring is fitted between the end of the heater cartridge and the spring bushing.

Preferably, the through hole formed in the lower spring plate has a rectangular shape, a long diameter is greater than a head diameter of the second bolt, and a short diameter is formed smaller than the head diameter of the second bolt. Combined with the lower spring plate, the through hole formed in the heater bracket is rectangular, and the long diameter is larger than the head diameter of the third bolt and the short diameter is formed smaller than the head diameter of the third bolt. interposed therebetween and coupled to the heater cartridge.

According to the present invention, since each independently separated heater cartridge is connected in series through a compression spring, the length of the heater can be increased as needed, so that the workability can be improved by sufficiently responding no matter how long the fabric is.

In addition, even if the heater expands in the longitudinal direction due to the temperature during hot press operation, the compression spring reliably absorbs it, so it is possible to fundamentally prevent the heater from bending, and it is possible to always deliver uniform pressure to the entire finished part of the fabric. have. As a result, it is possible to reliably and efficiently thermally bond the finished part of a long fabric.

In addition, it is possible to prevent the heater frame or the heater bracket from being bent because the peripheral parts of the heater, for example, the heater frame or the heater bracket are provided with a coupling structure that can accommodate the horizontally stretched by the heat of the heater.

In addition, since each heater cartridge is operated independently by the compression spring of the support unit, it is possible to apply a uniform pressure as a whole in the finished part of the fabric.

1 shows a hot press apparatus for fabric bonding according to an embodiment of the present invention.
Figure 2 shows an exploded view of a part of the heat press apparatus.
Figure 3 (a) shows the lower spring plate, Figure 3 (b) shows the heater bracket.

It should be noted that the technical terms used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. In addition, the technical terms used in the present invention should be interpreted as meanings generally understood by those of ordinary skill in the art to which the present invention belongs, unless otherwise defined in particular in the present invention, and excessively comprehensive It should not be construed in the meaning of a human being or in an excessively reduced meaning.

In addition, when the technical term used in the present invention is an incorrect technical term that does not accurately express the spirit of the present invention, it should be understood by being replaced with a technical term that can be correctly understood by those skilled in the art. In addition, general terms used in the present invention should be interpreted as defined in advance or according to the context before and after, and should not be interpreted in an excessively reduced meaning.

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

1 shows a heat press apparatus for bonding fabrics according to an embodiment of the present invention, and FIG. 2 shows an exploded view of a part of the heat press apparatus.

In the following description, the left-right direction in the drawings is shown as the longitudinal direction, the up-down direction is shown as the height direction, and the front-back direction is shown as the width direction.

The heat press apparatus of the present invention is composed of a heater unit disposed to face up and down, a cylinder for elevating the heater unit, a support unit interposed between the heater unit and the cylinder, and a structural frame to which each unit is mounted, at least the heater unit comprises: A plurality of independent heater cartridges are arranged longitudinally in series with a compression spring configured to absorb thermal expansion.

The structural frame includes a support 10 in contact with the ground, a bottom plate 20 coupled to an upper surface of the support 10, and a plurality of uprights from the bottom plate 20 and spaced apart in pairs along the longitudinal direction. A support shaft (30, 32), and a top plate (22) coupled to the ends of the support shaft (30, 32) is provided.

The top plate 22 and the bottom plate 20 are each configured as a single body to provide a base on which other components are installed.

In this embodiment, a structure in which the heater units are installed to face each other in the vertical direction and the upper heater unit is lowered by a cylinder to heat press the fabric placed on the lower heater unit is taken as an example.

However, the present invention is not limited thereto, and by installing a heat retaining member that generates heat at a lower temperature without installing a heater unit in the lower part, it has a structure in which the heat transferred to the upper heater unit is heated only to the extent that the heat is not emitted to the outside, or the lower heater unit is installed. It can be configured as a single body without being separated.

Hereinafter, since the upper and lower heater units have the same structure, the upper heater unit will be mainly described.

Referring to FIG. 1 , the heater cartridge 130 includes a heater 131 , both ends of which are opened and a heater frame 132 surrounding the heater 131 with an insulating material interposed therebetween, and both ends of the heater 131 are heater frames. A plurality of pieces are arranged in series along the longitudinal direction through the compression spring 134 in the exposed portion exposed to 132 to constitute a heater unit.

Although not shown, power is independently applied to each heater 131 , and a temperature sensor is built in each heater frame 132 .

Referring to the enlarged circle of FIG. 1 , the heater cartridge 130 includes a heater 131 , a heater frame 132 having both ends open and enclosing the heater 131 with an insulating material 135 interposed therebetween, and the heater 131 . ) is covered with a cover in contact with the fabric through a heat insulating material 133 , and the heater frame 132 may be, for example, an aluminum profile.

As described above, a plurality of the heater cartridges 130 are arranged in series along the longitudinal direction via a compression spring 134, and the ends of the heater cartridges 130 at both ends have a compression spring 135 via a heater bracket ( 140) is bound.

To this end, a spring bracket 142 is extended downwardly from both ends of the heater bracket 140 and a spring bushing 144 protrudes from the center of the spring bracket 142 to the end of the heater cartridge 130 and the spring bushing 144 ) between the compression spring 135 is sandwiched.

As a result, a plurality of heater cartridges 130 constitute one heater unit in a pressurized state with compression springs 134 and 135 interposed between the spring bushings 142 installed at both ends of the heater bracket 140 .

A cylinder 110 and a guide shaft 120 are installed in pairs in a form corresponding to each heater bracket 140 in the single body top plate 22 , for example, guides on both sides around one cylinder 110 . A shaft 120 is installed.

The support unit is composed of a spring bracket unit 160 coupled to the rod end of the cylinder 110 and a heater bracket 140 positioned under the spring bracket unit 160 and coupled thereto.

The support unit absorbs the horizontal thermal expansion of the heater frame 132 or the heater bracket 140 by the temperature of the heater 131 while elastically transmitting the pressing force of the cylinder 110 to the heater unit.

The spring bracket unit 160 is a cylinder spring bracket 163 coupled to the rod end of the cylinder 110, an upper spring plate 162 coupled to the lower portion of the cylinder spring bracket 163 by a bolt 152, the upper It consists of a lower spring plate 161 coupled to the spring plate 162 by a bolt 153 , and a compression spring 164 interposed between the upper spring plate 162 and the lower spring plate 161 .

3 (a), the through hole 161a formed in the lower spring plate 161 is rectangular, the long diameter is larger than the head diameter of the bolt 153, and the short diameter is formed smaller than the head diameter of the bolt 153, The bolt 153 is coupled to the lower spring plate 161 via a washer W.

According to this structure, the lower spring plate 161 receives the pressing force of the cylinder 110 elastically through the compression spring 164 and transmits it to the heater bracket 140, as will be described later, the heater bracket 140. Even if it is stretched due to thermal expansion due to the temperature of the heater 131, the lower spring plate 161 can move horizontally while maintaining the coupling with the upper spring plate 163 by the elasticity of the compression spring 164, resulting in the heater bracket. (140) can absorb the horizontal stretch.

As described above, when a plurality of pneumatic or hydraulic cylinders are used in a single press with a conventional length, the operation time of each cylinder cannot be precisely adjusted, so a time difference occurs in transmitting the pressure to the press, thereby causing deformation in the press, It is impossible to transmit a constant pressure to the fabric.

However, according to this embodiment, a plurality of heater brackets 140 corresponding to the press are connected to the cylinder 110 via a compression spring 134 , and the cylinder 110 is installed corresponding to each heater bracket 140 . Therefore, even if there is a time difference in pressure transmission between the cylinders 110, the pressure transmission time difference can be adjusted by the compression spring 164 as a whole.

In this embodiment, the heater brackets (140, 240) are separated by the same length as each of the heater cartridges (130, 230) and coupled to each of the heater cartridges (130, 230), but not limited thereto, and the heater bracket ( 240) may be configured as a single body.

3(b), the through hole 161a formed in the heater bracket 140 has a rectangular shape, the long diameter is larger than the diameter of the bolt 145 head, and the short diameter is formed smaller than the diameter of the bolt 145 head. Reference numeral 145 is coupled to the heater frame 132 via a washer (indicated by a dotted line).

According to the structure of the heater unit and the structure of the support unit as described above, when the heater 131 is horizontally stretched by thermal expansion, it can be horizontally stretched inside the heater frame 132 , and the heater of the adjacent heater cartridge 130 . 131 are elastically supported to each other by a compression spring 134 .

In addition, even when the heater frame 132 thermally expands horizontally by the temperature of the heater 131 , the bolt 145 coupling the heater frame 132 to the heater bracket 140 can structurally move horizontally, so that the heater The frame 132 absorbs stretching.

The guide shaft 120 is slidably coupled to the top plate 22 with a ball flange 122 interposed therebetween, and an end thereof is fitted and fixed to the flange 124 coupled to the heater bracket 140 .

Therefore, when the heater bracket 140 is raised and lowered by the driving of the cylinder 110, the guide shaft 120 slides through the ball flange 122 fixed to the top plate 22 constituting the structural frame, thereby sliding the heater bracket ( 140) to ascend and descend stably.

A plurality of support brackets 210 having a trapezoidal shape are coupled to the bottom plate 20 along the longitudinal direction, and the support brackets 210 support the heater bracket 240 at an upper end thereof.

Hereinafter, the operation of the hot press apparatus will be described with reference to FIGS. 1 to 3 .

A hot melt adhesive is attached along the edge of the opposite side of the high-density fabric, i.e. along the finish, and pressed with a heat press to heat-press.

The overlapping fabric with the hot melt adhesive is placed on the heater cartridge 230 positioned below, and the heat press device is operated.

When the cylinder 110 operates and the rod starts to descend, the spring bracket unit 160 descends and the heater bracket 140 and the heater cartridge 130 coupled thereto descend.

As described above, when the heater bracket 140 is raised and lowered by the driving of the cylinder 110, the guide shaft 120 slides through the ball flange 122 fixed to the top plate 22 constituting the structural frame, so that the heater The bracket 140 is stably descended without shaking.

The contact surface of the heater cartridge 130 comes into contact with the fabric, presses the fabric for a preset time, and transfers the heat of the heater 131 to the fabric. .

In this process, since each independently separated heater cartridge 130 is connected in series through a compression spring 134, the length of the heater can be increased as needed, so that the length of the fabric is sufficiently corresponding to improve workability. can do it

In addition, even when the heater frame 132 expands in the longitudinal direction due to the temperature during the heat press operation, since the compression springs 134 and 135 reliably absorb it, bending of the heater can be fundamentally prevented, and the finished part of the fabric A uniform pressure can always be delivered to the whole. As a result, it is possible to reliably and efficiently thermally bond the finished part of a long fabric.

In addition, since each heater cartridge 130 is operated independently by the compression spring 134, it is possible to apply a uniform pressure as a whole in the finished part of the fabric.

Thereafter, the cylinder 110 is operated in the opposite direction to raise the heater cartridge 130 and then the finished part of the fabric is cooled to ensure complete adhesion.

Those of ordinary skill in the art to which the present invention pertains may modify and modify the above-described contents without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

110: cylinder
120; guide shaft
130, 230: heater cartridge
131: heater
132: heater frame
134, 135: compression spring
140, 240: heater bracket
160: spring bracket unit

Claims (5)

a heater unit comprising a plurality of independently separated heater cartridges connected in series through a compression spring in the longitudinal direction;
a cylinder for elevating the heater unit;
a support unit interposed between the heater unit and the cylinder; and
It consists of a structural frame on which each unit is mounted,
The heater cartridge,
an independently powered heater; and
Consists of a heater frame having both ends open and enclosing the heater with an insulating material interposed therebetween,
The support unit is
a spring bracket unit coupled to the axial end of the cylinder and elastically pressing the heater cartridge corresponding to each of the heater cartridges; and
Consists of a single heater bracket coupled to the lower portion of the spring bracket unit,
Heat press device for fabric bonding, characterized in that the heater cartridges located at both ends of the heater unit are coupled to both ends of the heater bracket through compression springs. In claim 1,
The spring bracket unit,
a cylinder spring bracket coupled to an end of the cylinder shaft;
an upper spring plate coupled to a lower portion of the cylinder spring bracket by a first bolt;
a lower spring plate coupled to the upper spring plate by a second bolt; and
Consists of a compression spring interposed between the upper spring plate and the lower spring plate,
A plurality of the heater brackets have the same length as the heater cartridge, are arranged in series, and are coupled to the heater cartridge by a third bolt. At the ends of the heater brackets located at both ends, a spring bracket extends downward and the spring bracket A spring bushing protrudes from the center of the heat press device for fabric adhesion, characterized in that the compression spring is fitted between the end of the heater cartridge and the spring bushing. In claim 2,
The through hole formed in the lower spring plate has a rectangular shape, a long diameter is greater than a head diameter of the second bolt, and a short diameter is formed smaller than the head diameter of the second bolt. combine with,
The through hole formed in the heater bracket has a rectangular shape, a long diameter is larger than a head diameter of the third bolt, and a short diameter is formed smaller than the head diameter of the third bolt, so that the third bolt is coupled to the heater cartridge through a washer A heat press device for fabric adhesion, characterized in that. In claim 1,
A heat press device for fabric bonding, characterized in that it further comprises a heating plate installed to face the heater unit. In claim 4,
The heating plate is separated corresponding to each of the heater cartridges, or a heat press device for fabric bonding, characterized in that it is composed of a single body.

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