KR101683390B1 - Hot Press - Google Patents

Abstract

The present invention relates to a hot press for thermal compression of a water-repellent fabric with an outer cover for water-repellent clothes such as a climbing wear and the like. When conducting thermal compression on a double layer such as a sleeve, the hot press can separately conduct thermal compression on separate layers of the double layer, thereby preventing thermal compression between the separated layers. Also, the hot press particularly prevents generation of wrinkles and the like, and quickly conducts the thermal compression. The hot press comprises: a body (100); a pressing support part (200); an upper compressing means (300); and a bottom compressing means (400).

Description

{Hot Press}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot press for thermally pressing a waterproof fabric and a jacket against a waterproof garment such as a climbing jacket or the like, and more particularly to a hot press for peeling a double- .

In general, mountain climbing clothing and various types of cloth must be provided with waterproof function, and waterproof fabric is adhered to the outer skin by thermocompression for waterproofing.

In order to thermally press the cloth of the above-mentioned mountain climbing clothing or the like, a small iron which can be grasped with one hand is generally used. In the case of such an iron, the user must apply appropriate pressure to perform thermal compression of the fabric. , And if the uniform pressure is not applied, the thermocompression bonding can not be partially performed.

In order to solve the above-mentioned problems, the applicant of the present invention has been able to apply the uniform pressure at all times according to the preset pressure and temperature as in the Utility Model Application No. 20-0286870, thereby improving the efficiency of the thermocompression work A thermal pressing machine is proposed.

However, in the case of the thermocompressor as described above, in the case of a single layer having a single waterproof fabric and a single layer of clothes as in the back panel of a garment, the thermocompression work could be smoothly performed. However, in the case of a sleeve, There has been a problem in that defects are caused by thermocompression between each other or thermocompression is not easy due to occurrence of creases or the like.

Korean Patent Application No. 10-1110377.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a method of thermocompression bonding a double layer, such as a sleeve, The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a hot press for sleeve crimping, which prevents hot pressing and prevents wrinkles and the like from occurring quickly.

As a specific means for achieving the above object, in a hot press,

A lower cylinder mounting portion protruding forward from the upper portion of the work table, a support plate mounting portion formed vertically from the rear to the upper portion of the lower cylinder mounting portion, and an upper cylinder mounting portion protruding forward from the upper end of the support plate mounting portion. ;

A pressing support portion protruding from both sides of the front surface of the support plate mounting portion to face the front and having a pair of pressing support plates on both sides to which the sleeve is mounted;

An upper cylinder vertically formed in the upper cylinder mounting portion and a lower cylinder formed at the lower end of the upper inflow and lowering rod to protrude and retract into the lower portion of the upper cylinder and having a length in the left and right width direction of the body, An upper pressing means having an upper pressing portion for imparting a pressing force; And

A lower cylinder vertically formed on the lower cylinder mounting portion and a lower cylinder vertically formed on the upper end of the lower projecting rod and protruding upward from the lower cylinder and having a length in the left and right width direction of the body, And a lower pressing unit as a lower pressing unit.

As described above, according to the present invention, it is possible to thermally press-bond a double-layered sleeve in a state where upper and lower sleeves are respectively separated into upper and lower portions with a pressing support plate, It is possible to obtain the effect of significantly improving the speed and accuracy of the system.

In addition, it is possible to carry out the work at a time for both sleeves of both sides, and the efficiency of the work can be remarkably improved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a hot press for sleeve crimping according to the present invention. Fig.
2 is a front view of a hot press for sleeve crimping according to the present invention.
3 is a side cross-sectional view of a thermal press for sleeve compression according to the present invention.
4 is a main part view of a hot press for sleeve crimping according to the present invention.
5 is a sleeve mounting state of a thermal press for sleeve compression according to the present invention.
6 is an operational view of a thermal press for sleeve crimping according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

Fig. 1 is a perspective view of a hot press for sleeve crimping according to the present invention, Fig. 2 is a front view of a hot press for sleeve crimping according to the present invention, Fig. 3 is a side sectional view of a hot press for sleeve crimping according to the present invention, It is the main part of the thermal press.

1 to 4, the hot press 1 for a sleeve press according to the present invention comprises a body 100, a pressing support portion 200, an upper pressing means 300, and a lower pressing means 400 do.

Here, the body 100 includes a worktable 110 formed with a castor (not shown in the drawing) on the bottom surface thereof and having a moving force and an upper working height.

A mounting table 120 is formed on the upper portion of the work table 110. The mounting table 120 includes a lower cylinder mounting portion 121 protruding forward from the rear at an upper portion of the work table 110, And an upper cylinder installation part 123 protruding forward from the upper end of the support plate installation part 122 so as to face the lower cylinder installation part 120 do.

The pressing support part 200 is configured such that a sleeve (not shown in the figure) of a garment to be thermally pressed is mounted. The pair of opposing middle parts of the front side of the support plate installation part 122 of the body 100 The pressing support plates 210 and 210 'in the form of a metal plate are protruded from the front surface.

At this time, each of the pressure support plates 210 and 210 'is configured to have a predetermined fluid force upward and downward. To this end, the pressure support plates 210 and 210' And a guide hole 125 for guiding the upward and downward flows of the pressure supporting plates 210 and 210 'is formed.

An "a" bendable extension 220 is extended at the rear end of each of the pressure support plates 210, 210 'inside the support plate installation portion 122.

Spring fitting pieces 221 and 221 'are respectively protruded rearward from the upper and lower parts of the rear surface of the extension bar 220. Upper and lower portions of the spring fitting pieces 221 and 221' The tension spring 230 or 230 'having the brackets 126 and 126' fixed to the bracket 122 and connecting the spring fitting pieces 221 and 221 'to the brackets 126 and 126' Respectively.

A movable table 222 is formed on a front surface of the extension 220 and a vertical guide rail 127 is provided on the support plate installation part 122 so as to surround the movable table 222 and have an upward and a downward sliding force. So that the movable support 222 is moved upward and downward along the guide rails 127 to apply a predetermined upward and downward force to the pressing support plates 210 and 210 '.

The upper pressing means 300 is configured to thermally compress the sleeve by applying a thermal pressing force to the upper surface of the pressing support plates 210 and 210 ' Shaped upper cylinder 310 is formed in the upper cylinder 310. The upper inflow / outward rod 311 is configured to protrude / retract downward in the upper cylinder 310. [

An upper pressing portion 320 is formed on the lower end of the upper protruding and detaching rod 311 so that the upper pressing portion 320 is lifted up and down to heat the upper surfaces of the pressing support plates 210 and 210 ' And has a length in the left and right width direction of the body 100 so as to escape from the pressing support plates 210 and 210 'on both sides.

At this time, the upper pressing portion 320,

An upper guide bar 322 is formed on both sides of the upper portion of the support plate 321 to slide through the upper cylinder installation portion 123 So that the upper pressurizing portion 320 is guided in the upward and downward directions.

An upper insulating plate 323 is formed at a lower portion of the support plate 321 so as to be spaced apart from the support plate 321.

At this time, upper portions of the upper insulating plate 323 are formed with buffering guide rods 324 having upper and lower sliding portions through the upper portions of the supporting plates 321. The upper ends of the buffering rods 324 are connected to the nuts N So that the buffer guide rod 324 can be prevented from falling down.

A buffer spring 325 is provided between the support plate 321 and the upper insulating plate 323 so that the buffer spring 325 is inserted between the support plate 321 and the support plate 321 in a state of wrapping the buffer guide rods 324. And the upper insulating plate 323.

The upper heat plate 326 is formed on the bottom surface of the upper insulating plate 323. The upper heat plate 326 may not be newly realized but may be heated by a conventional heater (not shown).

The lower pressing means 400 is configured to thermally compress the sleeve by applying a thermal pressing force to the bottom surface of the pressing support plates 210 and 210 '. In the lower cylinder mounting portion 121, And a lower inflow / outrod 411 is formed on the lower cylinder 410 so as to protrude / retract upward.

A lower pressing portion 420 is formed on the upper end of the lower protruding rod 411 so as to press the lower surface of the pressing support plates 210 and 210 ' Right width direction of the body 100 so as to be separated from the pressing support plates 210 and 210 '

At this time, the lower pressing portion 420,

The lower insulator 421 is formed at the upper end of the lower protruding rod 411 and the lower insulator 422 is slidably inserted into the lower insulator 421 at both sides of the lower insulator 421, So that the lower pressing portion 420 is guided in the upward and downward directions.

The lower heat plate 423 is formed on the upper surface of the lower insulating plate 421 and the conventional heaters (not shown) may be heated instead of the lower heat plate 423.

Hereinafter, the operation of the hot press for the sleeve compression of the present invention having the above-described structure will be described in detail with reference to the accompanying drawings.

First, the hot press 1 for sleeve crimping according to the present invention is for thermocompression-bonding a waterproof fabric and an outer skin to a garment. In particular, a sleeve having a circular shape in cross section can be thermocompression- do.

In order to perform the thermocompression bonding as described above, the sleeve 10, in which the waterproof fabric and the sheath are overlapped, may be mounted.

5, the sleeve is mounted on a pair of pressing support plates 210 and 210 'projecting forward from the support plate mounting portion 122, 210 ' and 210 ' are mounted on both sides of the sleeve 10 so as to penetrate the press support plates 210 and 210 ' Are separated into an upper limb and a lower limb with the pressing support plates 210 and 210 'therebetween.

The upper and lower cylinders 310 and 410 formed in the upper and lower cylinder mounting portions 123 and 121 are formed by the upper and lower pressing means 300 and 400, respectively, It is possible by operation.

That is, when the upper and lower cylinders 310 and 410 are operated as shown in FIG. 6, the upper and lower protrusions 311 and 411 are drawn out from the upper and lower cylinders 310 and 410 A thermal pressing force is applied to the sleeve 10 by the upper and lower pressing portions 320 and 420 formed on the lower protruding rods 311 and 411 so that the sleeve 10 can be thermally compressed .

When the upper cylinder 310 is operated, the upper pressing portion 320 is lowered due to the drawing of the upper throwing-out rod 311, The upper heating plate 320 contacts the upper portions of the pressing plates 210 and 210 'to apply a thermal pressing force to the upper plates supported by the pressing plates 210 and 210' .

The upper guide bar 322 formed on the support plate 321 is slid from the upper cylinder mounting portion 123 and the upper pressing portion 320 is slid on the upper pressing portion 320. [ And guide the rise when descending and returning.

This is because the buffering action of the buffering spring 325 between the support plate 321 and the upper insulating plate 323 is performed by the buffering action of the upper pressing unit 320 The upper insulating plate 323 and the upper heating plate 326 are guided by the buffer guide rods 324.

When the lower cylinder 410 is operated, the lower pressing portion 420 is moved upward by the lower pushing and pulling rod 411, and the lower pressing portion 420 is moved upward The lower heating plate 423 is brought into contact with the bottom surface of the pressing support plates 210 and 210 'to apply a thermal pressing force to the lower support plates 210 and 210'.

The lower guide rod 422 formed on the lower insulating plate 421 is slid from the lower cylinder mounting portion 121 and the lower pressing portion 420 is slid on the lower pressing portion 420. [ And guide the descent when returning and returning.

That is, as described above, when the sleeve 10 of the present invention is thermocompression-bonded to the sleeve 10, the upper and lower legs of the sleeve 10 can be thermocompression- So that the upper and lower legs are thermocompression-bonded to each other while preventing the occurrence of defects, and the two side sleeves 10 are simultaneously subjected to the thermocompression bonding at the pressure supporting plates 210 and 210 'on both sides.

Meanwhile, unbalance of the pressing force may occur in the process of applying the pressing force to the pressing support plates 210 and 210 'by the upper pressing portion 320 and the lower pressing portion 420 as described above. At this time, 210) 210 'can impart a sense of stability corresponding to a pressure imbalance, which is possible by the action of the tension springs 230 and 230'.

That is, when the pressing force is unbalanced on the pressing support plates 210 and 210 ', breakage of the pressing support plates 210 and 210' may occur. At this time, in the pressing support part 200, The movable base 222 is formed on the extension base 220 and the movable base 222 can be moved up and down through the guide rail 127. The pressing support plates 210 and 210 ' It is possible to cope with the imbalance caused by the application of the upward and downward fluid force through the guide hole 125.

In addition, in the process of the fluid force acting on the press support plates 210 and 210 ', the tension springs 230 and 230' are laid on the upper and lower parts of the extension bar 220, In the completed state, the restoration force is always given and returned to the original position.

In other words, as described above, in the process of thermocompression bonding of the sleeve 10, a sense of security for the pressurizing support plates 210 and 210 'is provided, thereby achieving a more compact thermocompression bonding operation and improving the durability of the pressurizing support plates 210 and 210' .

100: body 110: workbench
120: Mounting base 121: Lower cylinder mounting portion
122: support plate mounting portion 123: upper cylinder mounting portion
125: Guide ball 126, 126 ': Bracket
127: guide rail
200: pressure supporting portion 210, 210 ': pressing supporting plate
220: extension bar 221,221 ': spring installation piece
222: Moving stand 230, 230 ': Tension spring
300: upper pressing means 310: upper cylinder
311: upper protruding rod 320: upper pressing part
321: Support plate 322: Upper guide rod
323: upper insulating plate 324: buffer guide rod
325: buffer spring 326: upper plate
400: lower pressing means 410: lower cylinder
411: Lower protruding rod 420: Lower pressing part
421: lower insulating plate 422: lower guide rod
423: Lower heat plate

Claims (3)

In a hot press,
A lower plate mounting portion 121 protruding forward from the upper portion of the work table and a support plate mounting portion 122 vertically formed from the rear to the upper portion of the lower cylinder mounting portion 121 and a support plate mounting portion 122 A mounting base 120 having an upper cylinder mounting portion 123 protruding forward from an upper end of the body 100;
A pressing support part 200 protruding from both sides of the front surface of the support plate installation part 122 and having a pair of pressing support plates 210 and 210 'on both sides to which the sleeves are mounted;
The upper cylinder 310 is formed at a lower end of the upper infiltration rod 311 and protrudes to the lower side of the upper cylinder 310 and has a length in the left and right direction of the body 100 Upper pressing means 300 having an upper pressing portion 320 which is upwardly and downwardly raised and lowered to apply a thermal pressing force to the upper surface of the pressing support plates 210 and 210 '; And
A lower cylinder 410 vertically formed on the lower cylinder mounting portion 121 and a lower cylinder 410 formed on the upper end of the lower inflow andremoving rod 411 that protrudes and retracts to the upper portion of the lower cylinder 410 and the length of the body 100 in the left- And a lower pressing means (400) having a lower pressing portion (420) which is upwardly and downwardly raised and lowered to apply a thermal pressing force to the bottom surface of the pressing support plates (210) and (210 ' Press.
The method according to claim 1,
The pressurizing supporter (200)
The rear ends of the pressure support plates 210 and 210 'are passed through the front surfaces of the support plate installation portions 122 and the pressure support plates 210 and 210' A guide hole 125 for guiding the lower flow is formed,
An "a" bendable extension 220 is formed at the rear end of each of the pressure support plates 210, 210 'inside the support plate installation portion 122,
Spring fitting pieces 221 and 221 'are formed at the upper and lower parts of the rear surface of the extension 220 and fixed to the upper and lower portions of the spring fitting pieces 221 and 221' And tension springs 230 and 230 'that connect the spring mounting pieces 221 and 221' to the brackets 126 and 126 'are tacky, respectively, and the brackets 126 and 126'
Wherein a movable base (222) is formed on a front surface of the extension base (220) so as to be able to slide upward and downward around a guide rail (127) formed perpendicularly to the base plate installation part (122).
The method according to claim 1,
The upper pressing portion 320,
A supporting plate 321 formed at the lower end of the upper evacuation rod 311 and having an upper guide bar 322 formed on both sides of the upper portion to slide through the upper cylinder installation part 123, An upper insulating plate 323 having an upper portion of the support plate 321 and a buffer guide rod 324 formed to be fastened to the upper portion of the support plate 321 and a buffering guide rod 324, And an upper heat plate 326 formed on the bottom surface of the upper insulating plate 323,
The lower pressing portion 420,
A lower insulating plate 421 formed on the upper end of the lower protruding rod 411 and formed with a lower guide rod 422 slidable through the lower cylinder mounting portion 121 on both lower sides thereof, And a lower heat plate (423) formed on the lower surface of the base plate.

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