KR20170050877A - Press apparatus for heat fusion - Google Patents

Abstract

The present invention relates to a heat fusion press apparatus, comprising: a body portion; A seating part installed in the main body part and providing a space in which the pressurized water is seated; A pressing unit installed in the main body and pressing the pressurized object by rotating by an external force; And a shock absorber installed at the pressing portion and providing a restoring force to the pressing portion so that the pressing portion restores to a position before the pressing portion presses the pressurized object after the pressing portion presses the object to be pressed.
Thereby, there is provided a heat-welding press apparatus capable of easily restoring the lever to a position before pressurizing the pressurized water after pressurizing the pressurized water.

Description

[0001] PRESS APPARATUS FOR HEAT FUSION [0002]

The present invention relates to a hot-melt press apparatus, which uses a shock absorber which is provided in a pressurizing section and which provides a restoring force to a pressurizing section so that the pressurizing section is restored to a position before the pressurizing section presses the pressurized product after the pressurizing section pressurizes the pressurized object To a hot-melt press apparatus capable of easily restoring the lever to a position before pressurizing the pressurized product after pressurizing the pressurized product.

In recent years, there has been a significant growth in the small-scale production of various types of products that customize and sell various products to suit individual preferences.

Among these customizing fields, a printing system that prints a desired image on a tumbler, a tile, or a frame can be diversified into a variety of products to be sold, and thus has a great advantage in industrial ripple effect, and has attracted a great deal of attention in recent years.

However, in general, the conventional printing system has a high unit price of the system and has a problem in a printable material.

Due to the above-mentioned problems, techniques for printing on various materials have been studied. Among them, the most effective method is a technique of printing on various materials by pressing a thermal fusing transfer paper onto a material.

The pressing technique using the above-described heat-fusing transfer paper is carried out by placing a heat-fusing transfer paper on a workpiece, and then manually rotating the lever of the press so that the heated press paper presses the heat-fusing transfer paper and the workpiece. However, when the above-described pressing process is repeated using a conventional general hot press machine, much time and labor are required to rotate the lever of the press in the reverse direction again, resulting in a problem that the efficiency of product production is greatly reduced.

An object of the present invention is to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a pressure regulating device, which is provided in a pressurizing portion and which is capable of restoring a restoring force to a pressurizing portion so that the pressurizing portion is restored to a position before pressurizing the pressurized portion, The present invention provides a heat-sealing press apparatus capable of easily restoring a lever to a position before pressurizing a pressurized object by pressing a pressurized object by using a shock absorber provided thereto.

The object is achieved according to the present invention by providing a method of manufacturing a semiconductor device, A seating part installed in the main body part and providing a space in which the pressurized water is seated; A pressing unit installed in the main body and pressing the pressurized object by rotating by an external force; And a shock absorber provided on the pressing portion and providing a restoring force to the pressing portion such that the pressing portion restores to a position before the pressing portion presses the pressurized material after the pressing portion presses the object to be pressed, Lt; / RTI >

The pressing portion includes a lever provided to be pivoted by an external force, a plate disposed to face the seating portion with the pressurized water therebetween, a plate for transferring heat energy generated by heat generation to the pressurized object, A first connecting member provided on the main body and formed with an insertion port into which the shaft is inserted, and a second connecting member connecting the shaft and the lever to transmit an external force applied to the lever to the shaft, 2 connecting member.

Further, the shock absorber can be provided so as to be stretchable in the longitudinal direction.

The shock absorber may include a cylinder which is installed in the lever and accommodates a fluid, and a piston whose one end is installed on the plate and the other end is movably installed inside the cylinder.

In addition, the seat portion may be installed to be movable in the main body portion in a sliding manner.

The seat portion may include a seat plate on which the pressurized water is seated on an upper surface thereof, a rail provided on the main body portion, and a seat mounted on the seat plate and mounted on the rail so as to be linearly movable along the longitudinal direction of the rail And a moving member.

The seating portion may further include an elastic member interposed between the rail and the moving member to absorb an external force applied to the moving member so that the position of the rail is prevented from being changed by an external force.

The seating plate may include a first seating plate on which the moving member is installed, and a second seating plate detachably mounted on the upper surface of the first seating plate and on which the pressurized water is seated on the upper surface .

In addition, the seating plate may further include a magnetic body provided on an upper surface of the first seating plate, and the second seating plate may be formed of a metallic material so as to be attached to the magnetic body by a magnetic force of the magnetic body.

In addition, the present invention may further include an adjusting unit installed in the main body to adjust a distance between the plate and the seat so that a force applied to the pressurized object is controlled.

According to the present invention, there is provided a heat-sealing press apparatus capable of effectively reducing the force consumed in rotating the lever in the reverse direction by easily restoring the lever to a position before pressurizing the pressurized water after pressurizing the pressurized water do.

In addition, the pressurized water can be easily arranged on the upper surface of the seat portion by the seat portion movably installed in the body portion in the sliding manner.

In addition, an external force applied to the rail can be easily absorbed by the elastic member interposed between the rail and the movable member. Thus, when the press is performed for a long time, the positional change of the rail to the lower side can be easily prevented.

Further, the second seating plate corresponding to the material of various sizes can be easily replaced by the magnetic substance provided on the upper surface of the first seating plate.

1 is a perspective view of a heat fusion press apparatus according to an embodiment of the present invention,
2 is a view showing a pressing portion of a heat-seal press apparatus according to an embodiment of the present invention,
3 is a side view of a heat-seal press apparatus according to an embodiment of the present invention,
4 is a view showing that the first seating plate of the heat-sealing press apparatus according to the embodiment of the present invention is separated from the second seating plate,
5 is a view illustrating a seating portion of a heat fusion press apparatus according to an embodiment of the present invention,
6 is a cross-sectional view of a seating part of a heat-seal press apparatus according to an embodiment of the present invention,
7 is a first operational view of a heat-seal press apparatus according to an embodiment of the present invention,
8 is a second operational view of a heat-seal press apparatus according to an embodiment of the present invention,
9 is a third operational view of the heat-seal press apparatus according to an embodiment of the present invention,
10 is a fourth operational view of a heat-seal press apparatus according to an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a heat fusion press apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a heat-sealing press apparatus according to an embodiment of the present invention, FIG. 2 is a view showing a pressing unit of a heat-sealing press apparatus according to an embodiment of the present invention, FIG. 4 is a side view of the heat seal press apparatus according to the embodiment of the present invention, in which the first seal plate is separated from the second seal plate, and FIG. 5 is a side view of the heat seal press apparatus according to one embodiment FIG. 6 is a cross-sectional view of a seating portion of a heat-seal press apparatus according to an embodiment of the present invention.

1 to 6, a heat-sealing press apparatus 100 according to an embodiment of the present invention includes a main body 110, a seating portion 120, a pressing portion 130, a shock absorber 140, And an adjusting unit 150. [0034]

The main body 110 provides a space for installing the seating part 120, the pressing part 130 and the adjusting part 150, which will be described later, and may be made of a metal material, a synthetic resin material, or the like.

The seating part 120 is provided in the main body part 110 by providing a space in which the pressured object s is seated. The seating portion 120 includes a seating plate 121, a rail 122, a moving member 123, and an elastic member 124.

Here, the pressurized object s includes the material s1 and the transfer paper s2. The material (s1) may be made of various materials (s1) such as a synthetic resin material, a metal material, a wood material, and a fabric material. The transfer sheet s2 is disposed on the upper surface of the material s1 and is transferred onto the material s1 when thermal energy is applied thereto and is printed on the upper surface of the material s1.

The seating plate 121 includes a first seating plate 121a, a second seating plate 121b and a magnetic body 121c by providing a space in which the pressurized object s is seated on the upper surface.

The first seating plate 121a is provided with a moving member 123, which will be described later, and a magnetic body 121c to be described later is provided on its upper surface.

The second seating plate 121b is attached to the magnetic body 121c by the magnetic force of a magnetic body 121c to be described later by being placed on the upper surface of the first seating plate 121a, And can be detachably installed on the upper surface. Since the second seating plate 121b is to be attached to the magnetic body 121c, the portion contacting the magnetic body 121c is formed of a metal material.

The second seating plate 121b may be provided in a plurality of sizes to correspond to the sizes of the respective pressured objects s to be seated.

The magnetic body 121c is installed on the upper surface of the first seating plate 121a to generate a magnetic force to fix the second seating plate 121b to the upper surface of the first seating plate 121a.

According to the above-described seating plate 121 including the first seating plate 121a, the second seating plate 121b and the magnetic body 121c, the seating plate 121 is provided in a size corresponding to the size of the pressured object s The second seating plate 121b can be easily separated and replaced. Thereby, it is possible to use a second seating plate 121b of an appropriate size depending on the size of the pressurized water (s), and accordingly, the pressure to be applied to each of the pressurized objects s can be appropriately applied .

The rail 122 is installed in the main body 110 described above so that a moving member 123 to be described later is mounted along the longitudinal direction of the rail 122.

The moving member 123 is mounted on the first seating plate 121a and mounted on the rail 122 so as to be linearly movable along the longitudinal direction of the rail 122. [ By this moving member 123, the second seating plate 121b can be slidably moved along the rail 122.

The elastic member 124 is formed along the longitudinal direction of the rail 122 by absorbing the external force applied to the rail 122 so as to prevent the position of the rail 122 from being changed by an external force, And the moving member 123, as shown in Fig.

When the pressurized water s is operated by operating the pressurizing unit 130, the pressure is applied to the plate 132, pressurized water (s), the second seating plate 121b, and the first seating plate 121a in sequence And this pressure is transmitted to the rail 122 provided on the main body 110 from the moving member 123 provided on the first seating plate 121a. By this process, the rail 122 installed on the main body 110 receives pressure downward, and the position of the rail 122 is changed.

According to the above-described elastic member 124, the pressure transmitted from the moving member 123 to the rail 122 is absorbed, and by this absorption action, the position of the rail 122 is effectively prevented from fluctuating.

The pressing portion 130 is installed in the main body portion 110 described above by pressing the pressurized object s by rotating by the external force. The pressing portion 130 includes a lever 131, a plate 132, a shaft 133, a first connecting member 134, and a second connecting member 135.

The lever 131 is provided so as to be rotated by an external force, and is gripped by an operator. The lever 131 is connected to the shaft 133 by a second connecting member 135 which will be described later. Therefore, when the lever 131 is rotated by the operator, the turning force of the lever 131 is transmitted to the shaft 133, so that the shaft 133 can be moved downward along the longitudinal direction of the shaft 133. [

The intermediate portion of the lever 131 described above is connected to the shock absorber 140 described later. When the lever 131 is restored to the position before the lever 131 is rotated after the lever 131 is rotated by the shock absorber 140 by the oil pressure of the shock absorber 140, The force for restoring the magnetic field can be greatly reduced.

The plate 132 is disposed so as to face the second seating plate 121b with the pressurized object s therebetween by transmitting heat energy generated by the heat generation to the pressurized object s. On the upper surface of the plate 132, a shaft 133 to be described later is installed.

The shaft 133 is provided in a bar shape so that one end is provided on the upper surface of the plate 132 and the other end is provided on the lever 131. The intermediate portion of the shaft 133 is inserted into the insertion hole of the first linking member 134 and is connected to the main body 110. The shaft 133 receives the rotational force generated by the rotation of the lever 131, and causes the plate 132 to press the pressurized object s.

The first linking member 134 is installed in the main body 110, and an insertion port into which the shaft 133 is inserted is formed.

The second linking member 135 connects the shaft 133 and the lever 131 to transmit an external force applied to the lever 131 to the shaft 133.

According to the above-described pressing portion 130 including the lever 131, the plate 132, the shaft 133, the first connecting member 134 and the second connecting member 135, Can be effectively pressurized.

The shock absorber 140 applies a restoring force to the pressing portion 130 so that the pressing portion 130 presses the pressurized object s and then the pressing portion 130 returns to a position before pressing the pressurized object s Which includes a cylinder 141 and a piston 142. [

The cylinder 141 is installed in the lever 131 by receiving the fluid. In the cylinder 141, a piston 142, which will be described later, is movably installed.

The piston 142 is installed at one end on the plate 132, and the other end is movably installed in the inner space of the cylinder 141 described above. When the lever 131 is moved to a position before the pressurized object s is pressed after the lever 131 is turned, the piston 142 is pressurized using the pressure of the fluid received in the cylinder 141 130, respectively.

According to the shock absorber 140 including the cylinder 141 and the piston 142, when the lever 131 is moved to the position before the pressurized object s is pressed after the lever 131 is rotated And provides a restoring force to the pressing portion 130. [ Thereby, it is easy to allow the operator to move the lever 131 to a position before the pressurized object s is pressed.

The adjusting unit 150 is installed in the main body 110 by adjusting the distance between the plate 132 and the seating unit 120 so that the force applied to the pressurized object s is controlled. The adjusting portion 150 is provided in a screw manner and is rotated by an operator. The distance between the plate 132 and the seating portion 120 is easily adjusted by the operation of the above-described adjustment portion 150. [

Accordingly, the heat-sealing press apparatus 100 according to the embodiment of the present invention including the main body 110, the seating portion 120, the pressing portion 130, the shock absorber 140, and the adjusting portion 150 The lever 131 can be easily restored to the position before the pressurized object s is pressed after the pressurized object s is pressed so that the force consumed to rotate the lever in the reverse direction can be effectively reduced.

Hereinafter, the operation of the heat-seal press apparatus according to one embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 7 is a first operational view of a heat-sealing press apparatus according to an embodiment of the present invention, FIG. 8 is a second operation view of a heat-sealing press apparatus according to an embodiment of the present invention, 10 is a fourth operation diagram of a heat-sealing press apparatus according to an embodiment of the present invention.

As shown in Fig. 7, the operator moves the second seating plate 121b using the handle provided on the second seating plate 121b. Thereafter, after the worker s1 places the transfer sheet s2 on the upper surface of the work sl1, the work sl1 and the transfer sheet s2, i.e., the pressured material s are placed on the upper surface of the second placement plate 121b do.

8, a second seating plate 121b is disposed so that the second seating plate 121b and the first seating plate 121a face each other using a handle provided on the second seating plate 121b, Lt; / RTI >

9, when the worker presses the lever 131 to rotate the lever 131, the rotational force is transmitted to the shaft 133, and then the force is transmitted from the shaft 133 to the plate 132 So that the pressurized water s sandwiched between the plate 132 and the second seating plate 121b is pressed. At this time, since the plate 132 comes into contact with the pressurized object s in a state of being heated, the transfer sheet s2 is thermally fused and printed on the material s1.

10, when the operator rotates the lever 131 in the reverse direction after the printing is completed, the lever 131 is rotated by the hydraulic pressure of the fluid contained in the cylinder 141, s to the position before pressing.

Therefore, according to the operation of the heat-sealing press apparatus 100 according to the above-described embodiment of the present invention, after the pressurized object s is pressed, the position of the lever 131 before the pressurized object s is pressed The force consumed to rotate the lever in the reverse direction can be effectively reduced.

The scope of the present invention is not limited to the above-described embodiments, but may be embodied in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100: A heat fusion press apparatus according to an embodiment of the present invention
110: main body part 120: seat part
121: seating plate 121a: first seating plate
121b: second seating plate 121c: magnetic substance
122: rail 123: moving member
124: elastic member 130:
131: lever 132: plate
133: shaft 134: first connecting member
135: second connecting member 140:
141: cylinder 142: piston
150: Control section s: Pressurized water
s1: Material s2: Transfer paper

Claims (10)

A body portion;
A seating part installed in the main body part and providing a space in which the pressurized water is seated;
A pressing unit installed in the main body and pressing the pressurized object by rotating by an external force; And
And a shock absorber provided on the pressing portion and providing a restoring force to the pressing portion such that the pressing portion restores to a position before the pressing portion presses the pressurized object after the pressing portion presses the object to be pressed. The method according to claim 1,
The pressing portion
A plate arranged to face the seating portion with the pressurized water interposed therebetween and configured to transmit heat energy generated by heat generation to the pressurized object; And a second connecting member connected to the lever to transmit an external force applied to the lever to the shaft, the first connecting member being provided in the main body and having an insertion port through which the shaft is inserted, Heat fusion press apparatus. The method of claim 2,
The shock absorber
Wherein the elastic member is provided so as to be elastically stretchable in the longitudinal direction. The method of claim 3,
The shock absorber
And a piston which is installed in the lever and accommodates the fluid, and one end of which is provided on the plate and the other end of which is movably installed inside the cylinder. The method according to any one of claims 1 to 4,
The seat (1)
Wherein the main body part is installed to be movable in a sliding manner in the main body part. The method of claim 5,
The seat (1)
A mounting plate on which the pressurized object is seated on an upper surface thereof, a rail provided on the main body, and a moving member mounted on the seating plate and movably mounted on the rail in a longitudinal direction of the rail Fusing press device. The method of claim 6,
The seat (1)
Further comprising an elastic member interposed between the rail and the movable member to absorb an external force applied to the movable member so that the position of the rail is prevented from being changed by an external force. The method of claim 7,
Wherein the seating plate comprises:
And a second seating plate detachably mounted on the upper surface of the first seating plate and having the pressurized water placed on an upper surface thereof. The method of claim 8,
Wherein the seating plate comprises:
Further comprising a magnetic body provided on an upper surface of the first seating plate,
Wherein the second seating plate is made of a metal material so as to be attached to the magnetic body by a magnetic force of the magnetic body. The method of claim 9,
And a control unit installed in the main body to adjust a distance between the plate and the seat so that a force applied to the pressurized object is controlled.

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