KR20150046984A - Thermal transfer apparatus - Google Patents

Abstract

The present invention relates to a thermal transfer apparatus capable of continuously working using a transfer type dual table. The present invention increases work efficiency as continuous work is possible, and increases a secure transfer quality as an exact position control of a work table is possible by realizing a new type of transfer type dual table method which assembles two work tables which are alternatively transferrable from side to side by being arranged on both sides with a transfer unit, fixedly located on the center, as the center.

Description

Technical Field [0001] The present invention relates to a thermal transfer apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a thermal transfer apparatus for printing a pattern of a transfer sheet on a transfer object in a thermal state, and more particularly, to a thermal transfer apparatus capable of continuously performing transfer using a transfer type dual table.

Generally, a thermal transfer device is a device for transferring a transfer paper having a pattern to a transfer subject and pressing the transfer paper with heat to print the transfer paper on the transfer subject.

Such a finishing treatment method by thermal transfer is advantageous in that the surface of the coating layer is smooth and the quality of the coating layer can be enhanced. In addition, the coating layer is fused integrally to the surface of the transfer object by heat, There is a tendency that the usage is increasing greatly.

In addition, various objects such as tops, cushions, cushions, cups, various kinds of ornaments including wooden panels and metal panels of furniture and frames, designs and back-lashes, etc. have been expanded as objects to be printed on the pattern of transfer paper.

Recently, a method of directly transferring an image displayed on a monitor to a transfer film by using a computer is widely used.

Normally, a thermal transfer device arranges a transfer object horizontally on a work table, transfers the transfer object to a transfer device with a plurality of transfer rollers and a conveyor, and then transfers a pattern on the transfer object, for example, Transferring structure.

However, the conventional transfer method has a disadvantage in that the work process is troublesome, the labor cost rises, and the work efficiency is lowered, resulting in lowering of productivity and workability, and further, an increase in manufacturing cost.

In consideration of this point, Korean Patent Registration No. 10-0657984 discloses a " thermal transfer device " using a transfer mechanism that reciprocates between two tables.

However, since the above-mentioned "thermal transfer apparatus" is a system in which a worker directly moves the entire transferring apparatus including a press or the like, that is, a system in which a worker directly manages a transferring apparatus which is a heavy object, And the position of the transfer mechanism is controlled depending on the manual operation. Therefore, there is a problem in that there is a concern about product failure such as difficulty in precise positioning between the transfer mechanism and the table.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a new transfer type dual table system in which two work tables arranged on both sides of a transfer unit, The present invention aims to provide a thermal transfer apparatus capable of ensuring the transfer quality by enabling continuous operation and improving the efficiency of work, and in particular, by precisely controlling the position of the work table.

In order to achieve the above object, a thermal transfer apparatus provided in the present invention has the following features.

The thermal transfer apparatus includes an apparatus main body having a work area in which a transfer operation is performed, a transfer plate installed above the work area formed in the apparatus main body and incorporating hot lines, A transfer unit including a cylinder for up and down driving; a transfer unit which is installed below the work area formed in the apparatus main body and is transportable along two rows of guide rails and in which a transfer object is set, And two work tables that can be located in each area while moving between a work area of the work area and an outer work area.

Therefore, the thermal transfer apparatus is characterized in that it can improve the efficiency of the operation through continuous operation by performing the transfer operation while both the work tables are sequentially positioned in the work area formed below the transfer unit.

Here, the work table of the thermal transfer apparatus may be arranged in the left and right outer waiting areas on the basis of the central working area formed in the apparatus main body, and the transfer work can be performed while alternately reciprocating the working area and the waiting area .

At this time, the work table may be provided with at least one handle for manual operation by an operator.

The thermal transfer apparatus may further include a position regulating mechanism installed below the work area provided in the apparatus main body and connected to the work table to regulate the correct position of the work table entering the work area .

At this time, the position regulating mechanism is provided with a hole with a predetermined length on both right and left sides, and a load bracket through which a rod having a predetermined length is inserted and fixed is provided on the bottom surface of the work table, The position of the work table is regulated by being inserted into the hole of the tool, and a damper for gradually reducing the feed speed of the work table is provided inside the hole of the position regulating mechanism.

In addition, in the case of the transfer plate in the transfer unit, the transfer plate may be connected to the rod of the cylinder and connected to the bottom of the adapter plate, which is vertically guided by both guide bars, .

The transfer apparatus provided in the present invention has the following advantages.

First, since the work tables arranged on both the left and right sides are alternately transferred to the central working area, the efficiency of the work due to the continuous work can be improved, and the operator can perform the operation and handling very easily .

Second, since the position of the table can be precisely regulated within the working area where the transferring unit in the center is located, it is possible to accurately transfer the pattern on the transferring plate to the transferring object, thereby reducing the defective rate and securing the quality .

1 is a perspective view showing a thermal transfer apparatus according to an embodiment of the present invention;
2 is a perspective view showing a state in which the work table is separated from the apparatus main body in the thermal transfer apparatus according to the embodiment of the present invention.
3 is a perspective view showing a transfer mechanism and a drive mechanism of a transfer unit in a thermal transfer apparatus according to an embodiment of the present invention.
4A to 4G are front views showing an operating state of the thermal transfer apparatus according to an embodiment of the present invention;

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

FIG. 1 is a perspective view showing a thermal transfer apparatus according to an embodiment of the present invention, FIG. 2 is a perspective view showing a state in which a work table is separated from an apparatus main body in a thermal transfer apparatus according to an embodiment of the present invention, Is a perspective view showing a transfer mechanism and a drive mechanism of a transfer unit in a thermal transfer apparatus according to an embodiment of the present invention.

As shown in Figs. 1 to 3, the thermal transfer apparatus includes a transfer type dual table for transferring two work tables placed on both sides alternately at the bottom of a transfer unit disposed at the center, .

To this end, the apparatus main body 11 of the thermal transfer apparatus includes an upper body 11a and a lower body 11b, and a space between the upper body 11a and the lower body 11b, The region 10 is formed.

The upper main body 11a is provided with a transfer unit 12 composed of a transfer plate 12 and a cylinder 13. The lower main body 11b is provided with a side wall 11b extending from the edge of the main body to both sides, And the side frames 23 installed as described above serve as structures for supporting the work tables 16a and 16b, respectively.

Accordingly, the apparatus main body 11 has a central working area 10 formed at the lower part of the transfer unit 14 installed in the upper main body 11a, and a lower working area 10 formed at the upper part of both side frames 23 It is possible to have the waiting area 24.

A control panel 28 is provided on the front surface of the upper main body 11a of the apparatus main body 11 so that the operator can perform various functions such as a device ON / OFF operation through various switches and a display screen on the control panel 28, It is possible to perform the upward and downward operations of the plate 12 and the like.

A guide rail 15 is provided as a means for guiding the left and right conveyance of the work tables 16a and 16b and the guide rail 15 at this time is supported by the working area 10, The upper surface of the lower main body 11b and the upper surface of the side frame 23 on the outer side, and the two-row structure is arranged in parallel along the left and right longitudinal direction while maintaining a constant spacing therebetween.

The work tables 16a and 16b are set in the form of a square plate in which the objects to be set are set. The work tables 16a and 16b have four sliders 25 And is fastened to the upper surface of the frame.

The work tables 16a and 16b are moved to the work area 10 by using the slider 25 moving along the guide rails 15 installed between the working area 10 and the waiting areas 24 on both sides ) And the waiting area (24).

The work tables 16a and 16b are provided with at least one handle 22 for manual operation, for example, two handles 22 provided on the front edge and the side edge, respectively.

Accordingly, the operator grasps the handles on the work tables 16a and 16b to move the work tables 16a and 16b in the wait area 24 to the work area 10 and to the work table 10 in the work area 10 16a, 16b to the waiting area 10, respectively.

For example, the work tables 16a and 16b are provided on the left and right sides with reference to a central work area 10 formed in the apparatus main body 11, that is, a bottom area of the transfer plate 12 in the transfer unit 12 The work area 10 and the waiting area 24 can be alternately positioned in the respective areas while being alternately arranged by manual operation of the operator.

Particularly, in the present invention, the position regulating mechanism 18 for positively positioning the work tables 16a, 16b which can be moved to the left and right in the work area 10 is provided.

To this end, the position regulating mechanism 18 is a block having a substantially rectangular parallelepiped shape. The position regulating mechanism 18 has a structure in which two holes 18a are formed in the longitudinal direction on both right and left sides. (I.e., the upper surface of the lower main body 11b).

At this time, the rods 26a of the rod brackets 26 provided on the bottom surfaces of the work tables 16a and 16b are fitted and fixed in the respective holes 18a opened to both sides of the position regulating mechanism 18. [

Thus, when the work tables 16a and 16b are moved from the waiting area 24 to the working area 10, they enter the working area 10 under the restriction by the position regulation mechanism 18, The rod 26a of the rod bracket 26 is fitted and fixed to the hole 18a of the position regulating mechanism 18 in a state of being correctly positioned in the work area 10, So that the work tables 16a and 16b can be positively positioned in the work area 10. In addition,

At this time, a damper (not shown) is provided in the hole 18a of the position regulation mechanism 18 to buffer the feed speed of the work tables 16a and 16b. The position regulating mechanism 18 is provided on the bottom surface of the work tables 16a and 16b in accordance with the movement of the work tables 16a and 16b to move the rod 26a Can also serve to buffer the feed speeds of the work tables 16a and 16b through contact with the damper.

The damper may be air-filled or the like filled with air.

A transfer unit 14 constituted by a transfer plate 12 and a cylinder 13 is provided as means for carrying out a transfer operation substantially.

The transfer unit 14 is installed above the work area 10 of the apparatus main body 11, that is, supported by the upper main body 11a, and has a transfer plate (not shown) 12 and the cylinder 13 for raising and lowering the transfer plate 12 can be used for the transfer operation.

To this end, a cylinder 13 with a rod downward is vertically installed in the upper main body 11a of the apparatus main body 11, and an adapter plate 19 having a horizontal posture is connected to the rod of the cylinder 13 .

A transfer plate 12 in the form of a substantially rectangular plate structure is horizontally arranged in parallel at the bottom of the adapter plate 19. The transfer plate 12 thus arranged is supported by a plurality of supports For example, four bars 21 for support, for example.

The guide bar 20 is inserted into the bush 27 of the upper main body 11a and is guided by the upper and lower slide guides 19, As shown in FIG.

Thus, when the cylinder 13 is moved forward and backward, the entire adapter plate 19 and the transfer plate 12 are lowered and raised while being guided by the guide bars 20 on both sides, The transfer operation can be performed through the downward and upward movement of the plate 12. [

Here, the transfer plate of the transfer unit is a conventional one that presses a transfer object together with heat through a built-in hot line so that the transfer sheet pattern is printed on the surface of the transfer object, and a detailed description of its structure and function will be omitted.

Therefore, the operation state of the thermal transfer apparatus constructed as described above will be described below.

4A to 4G are front views showing an operating state of a thermal transfer apparatus according to an embodiment of the present invention.

4A to 4G, the transfer plate 12 of the transfer unit 14 is disposed above the central work area, the work tables 16a and 16b are respectively disposed in the waiting areas on both sides, A transfer film 100 having a predetermined pattern is attached to the transfer plate 12 and the transfer objects 110a and 110b are set on the upper surfaces of the work tables 16a and 16b.

In this state, the worker grips the handle and transfers the work table 16a on the left side, and places the work table 16a in the lower portion of the transfer plate 12, that is, in the work area. At this time, the position of the work table 16a is fixed while the rod bracket 26 provided on the bottom of the work table 16a is engaged with the position regulating mechanism 18 provided in the work area.

Next, when the work table 16a is positioned below the transfer plate 12 and then a switch provided on the control panel is pressed, the transfer plate 12 is lowered by advancing operation of the cylinder, The transfer film 100 on the work table 12 and the transferred object 110a on the work table 16a are pressed and pressed by the contact and heat.

When the transfer operation is completed on the transferred object 110a, the transfer plate 12 rises again to return to the initial position by the backward operation of the cylinder (for example, when a predetermined timer setting time elapses) When the work table 16a on which the workpiece 110a having completed the work is placed is transferred to the waiting area on the left side, the transfer work for one workpiece is completed.

Subsequently, the worker grips the handle and transfers the work table 16b on the right side and places it in the lower portion of the transfer plate 12, that is, in the work area. At this time, the position of the work table 16b is fixed while the rod bracket 26 provided on the bottom of the work table 16b is engaged with the position regulating mechanism 18 provided in the work area.

Next, when the work table 16b is positioned below the transfer plate 12 and a switch provided on the control panel is pressed, the transfer plate 12 is lowered by advancing operation of the cylinder, The transfer film 100 on the work table 12 and the transfer object 110b on the work table 16b are pressed and pressed by the contact and heat.

When the transfer operation is completed on the transferred object 110b, the transfer plate 12 rises again to return to the initial position by the backward operation of the cylinder (for example, when a predetermined timer setting time elapses) When the work table 16b on which the workpiece 110b having completed the work is placed is transferred to the waiting area on the left side, the transfer work for the other workpiece is completed.

In this way, in the state that the transfer plate of the transfer unit is fixed at the center, both work tables are alternately reciprocated and the transfer plate is repeatedly moved up and down repeatedly, that is, continuously through the transfer type dual table It is possible to carry out the transfer operation, and thus the efficiency of the transfer operation can be increased.

10: Working area 11: Device body
11a: upper body 11b:
12: transfer plate 13: cylinder
14: Transfer unit 15: Guide rail
16a, 16b: work table 18: position regulation mechanism
18a: hole 19: guide bar
20: adapter plate 21: support bar
22: handle 23: side frame
24: waiting area 25: slider
26: rod bracket 26a: rod
27: Bush 28: Control Panel

Claims (7)

An apparatus main body 11 in which a work area 10 in which a transfer operation is performed is formed;
A transfer plate 12 installed above the work area 10 provided in the apparatus main body 11 and incorporating hot lines and capable of moving up and down and a cylinder 13 for driving up and down the transfer plate 12 A transfer unit 14 configured by a transfer unit 14;
The center of the conveyance unit 14 is located below the work area 10 formed in the apparatus main body 11 and is transportable along two rows of guide rails 15, Two work tables 16a, 16b that can be located in each area while moving between a work area of the work area and an outer work area;
Wherein the heat transfer device comprises:
The method according to claim 1,
The work tables 16a and 16b are arranged in the left and right outer waiting areas on the basis of the central working area 10 formed in the apparatus main body 11 and can reciprocate between the working area and the waiting area Wherein the heat transfer device is a heat transfer device.
The method according to claim 1,
A position regulating mechanism 18 provided below the work area 10 provided in the apparatus main body 11 and capable of regulating the correct positions of the work tables 16a and 16b entering the work area 10 Further comprising: a heat transfer device for transferring heat from the heat transfer device to the heat transfer device.
The method of claim 3,
The position regulating mechanism 18 is provided with a hole 18a at both left and right sides and a rod bracket 26 The rods 26a of the rod brackets 26 are fitted and fixed in the holes 18a of the position regulating mechanism 18 so that the correct positions of the work tables 16a and 16b are regulated Characterized in that the thermal transfer device
The method of claim 4,
Wherein a damper for buffering the feed speed of the work tables (16a, 16b) is built in the hole (18a) of the position regulating mechanism (18).
The method according to claim 1,
The transfer plate 12 of the transfer unit 14 is connected to the rod of the cylinder 13 and at the bottom of the adapter plate 19 which is vertically guided by both guide bars 20, (21). The thermal transfer apparatus according to any one of claims 1 to 3,
The method according to claim 1,
Wherein the work table (16a, 16b) is provided with at least one handle (22) for manual operation by an operator.

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