KR20170122547A - Drying apparatus using plate heater - Google Patents

Abstract

The present invention relates to a drying apparatus using a planar heating element and, more specifically, to a drying apparatus using a planar heating element, capable of continuously supplying an electric force to perform a drying operation of an object to be dried while linearly transferring the object to be dried, placed on a planar heating element capable of uniformly transferring heat, in a vertical direction or in a horizontal direction. The drying apparatus using a planar heating element comprises: a planar heating element assembly which fixates and supports the planar heating element to be transferred, with a planar heating element which uniformly dries the object to be dried by receiving the electric force while the object to be dried is settled on the upper surface thereof; a loading conveyor onto which the planar heating element assembly is loaded; a first drying chamber which performs drying while moving the planar heating element assembly loaded onto the loading conveyor in a vertical direction; a second drying chamber which performs drying by moving the planar heating element assembly unloaded from the first drying chamber in the opposite direction of the moving direction in the first drying chamber; a horizontal transport unit which transfers the planar heating element assembly unloaded from the first drying chamber to the second drying chamber; and an unloading conveyor to which the planar heating element assembly is discharged from the second drying chamber.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drying apparatus using a surface heating element,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a drying apparatus using an area heating element, and more particularly, to a drying apparatus using an area heating element, And a drying apparatus using an area heating element capable of supplying electric power.

Generally, a drying apparatus used for manufacturing electronic parts such as a flat panel display (flat panel display) generally uses a hot air type and an infrared ray drying apparatus using infrared rays. In recent years, however, And the application of an area heating element capable of improving the quality of the product through uniform drying is being performed.

The planar heating element is a plate-like heating element having a function of converting electric energy mediated by a heating portion of a resistor having electrical resistance into heat energy, and is a method applied to " Method of manufacturing heating plate " Korean Patent Laid-Open Publication No. 2013-0031142).

The planar heating element is a heat generating structure by a conductive film. The conductive film is generally a compound thin film such as tin oxide or indium oxide, or a metal thin film such as noble metal or copper. In recent years, carbon nanotubes (CNTs) have been used as conductive films.

According to one embodiment of the above-mentioned prior art " method for manufacturing a heating plate, " a heating plate having a large area can be easily formed and has good quality, and a strong heating plate at a high temperature can be manufactured without using a heat treatment oven A method of manufacturing a heating plate is disclosed.

Conventionally, as for the construction of a drying apparatus using such an area heating element, when the drying of the drying object on which the worker puts on the surface heating element is mostly fixed type, it is taken out and stored in a separate tray, It had to go through the cumbersome process of moving to the next process through means.

However, as described above, in the process of taking out, storing, and moving the laundry by hand, the efficiency of the operation is lowered, and impact or vibration may occur, which may degrade the quality of the product.

Accordingly, it is an object of the present invention to overcome the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for drying a dried object, And it is an object of the present invention to provide a drying apparatus using a heating element.

According to an aspect of the present invention, there is provided an apparatus for heating a surface heating element, including a plate-shaped surface heating element for uniformly drying an object to be dried by receiving an electric force with an object to be dried placed on a top surface thereof, An assembly for supporting the surface heating element; A loading conveyor to which the planar heating element assembly is fed; A first drying chamber for drying the planar heating element assembly carried by the loading conveyor while moving the planar heating element assembly in a vertical direction of any one of an upward direction and a downward direction; A second drying chamber for performing drying while moving the planar reflector assembly taken out from the first drying chamber in a direction opposite to the moving direction in the first drying chamber; A horizontal transfer unit for transferring the surface heating element assembly taken out from the first drying chamber to the second drying chamber; And an unloading conveyor for discharging the planar heating element assembly from the second drying chamber.

Further, a first and second lift units and a lower conveyor are further provided between the loading conveyor and the first drying chamber, and between the second drying chamber and the unloading conveyor, respectively.

The horizontal transfer unit is a linear transfer device that lifts the surface heating element assembly of the first drying chamber by a plurality of hands and then linearly moves to the second drying chamber.

The planar heating element assembly may further include: a support frame for fixing the edge of the planar heating element; A connection part fixed to one end of the support frame and serving as a passage for applying an electric force to the planar heating element; An energizing rail which is brought into contact with the connecting portion so as to energize when the connecting portion is vertically moved up and down; And a driving unit for vertically transporting the surface heating element and the connection portion in electrical contact with the conductive rail.

The connecting portion includes upper and lower plates for fixing the supporting frame; A power connection part formed on one side of the upper and lower plates and electrically connecting the upper and lower plates and the surface heating element to each other; And a contact electrode formed on one end of the upper and lower plates and electrically contacted along the surface of the conductive rail.

Further, the energizing rail includes a rail frame constituting a body of the energizing rail; And an electrode rail which is inserted into the rail frame and is brought into contact with the contact electrode of the connecting portion so as to be energized when the contact electrode is vertically moved up and down.

In addition, a tension spring for providing a resilient force to the contact electrode is further included in the upper and lower plates of the connection part.

In addition, the connecting portion and the energizing rail are formed in a plurality of at least two sets.

Further, the first and second drying chambers are characterized by having a vertically moving device of a multi-stage tray structure in which an area heating element is inserted at each end.

The horizontal transfer unit is a rotary transfer device for rotating and transferring an object to be dried placed on each multi-stage tray of the first and second drying chambers by a turntable.

The drying method of the present invention as described above is advantageous in that the drying time can be drastically shortened compared with the existing hot air or infrared method and the size of the drying device can be reduced and the power consumption can be reduced The productivity is greatly improved.

On the other hand, since the plurality of surface heating elements dries the object to be dried, and the surface heating element and the object to be dried are transferred to the next process, the conventional troublesome process in which the object to be dried must be taken, stored and moved separately is omitted, .

Also, since the external impact, vibration, and contamination, which are applied in the process of taking out, storing, and moving the object to be dried, are originally prevented, deterioration of the quality of the object to be dried can be prevented.

1 is an overall perspective view showing a drying apparatus using a planar heating element according to an embodiment of the present invention;
Fig. 2 is a front view of Fig. 1
Figure 3 is a plan view of Figure 1
4 is a partial enlargement view
Fig. 5 is a perspective view showing a vertical transfer device of the planar heating element according to the present invention. Fig.
6 is a plan view showing a planar heating element and a connecting portion according to the present invention;
7 is a partial enlargement view
8 is a sectional view taken along line BB of Fig. 7
9 is a front view schematically showing a drying apparatus using a planar heating element according to another embodiment of the present invention.
Figure 10 is a schematic plan view of Figure 9

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

2 is a front view of Fig. 1, Fig. 3 is a plan view of Fig. 1, and Fig. 4 is a partial enlarged view of Fig. 3 .

A loading conveyor (5) is located on the loading side where the substrate is loaded, and a first lift unit (6) is provided on the bottom of the loading conveyor. A pair of left and right lower conveyors 9 for loading and unloading the planar heating element assembly 1 'into the first drying chamber 7a are disposed on a side opposite to the loading side of the first lift unit. The first drying chamber 7a is a heat insulating space having a predetermined length in the vertical direction and a vertical transfer device 12 for transferring the surface heating element assembly 1 'upward is provided in the heat insulating space portion. The second drying chamber 7b is symmetrically provided on the opposite side of the loading side of the first drying chamber 7a so that the surface heating element assembly 1 'passing through the first drying chamber 7a is continuously connected to the second drying chamber 7b, As shown in Fig. A horizontal transfer unit 8 is provided at the upper end of the first and second drying chambers 7a and 7b to transfer the surface heating element assembly 1 'taken out of the first drying chamber 7a to the second drying chamber 7b. Respectively.

The structure of the second drying chamber 7b is also symmetrical with the first drying chamber 7a and the vertical transfer device 12 is provided in the inside of the second drying chamber 7b, 1 '). Since the lower conveyor 9 is positioned below the second drying chamber 7b, the surface heating element assembly 1 'is transferred to the unloading side, and on the unloading side of the lower conveyor 9, Similarly, the second lift unit 10 and the unloading conveyor 11 are disposed.

The operation of the drying apparatus using the planar heating element according to an embodiment of the present invention will now be described in detail.

First, when the planar heating element assembly 1 'on which an object to be dried (not shown) is mounted on the upper surface is carried to the loading side through the loading conveyor 5, the first lift unit 6 receives the planar heating element assembly 1' To the lower conveyor 9 located below the drying chamber 7a. At this time, since the vertical transfer device 12 is provided in the first drying chamber 7a, the planar heating element assembly 1 'is transferred upward by the vertical transfer device and simultaneously the planar heating element assembly 1' The drying of the laundry is started. When the drying object and the surface heating element assembly 1 'reach the upper end of the first drying chamber 7a, the drying time tact time required for drying the material to be processed is completed, The horizontal transfer unit 8 positioned at the first drying chamber 7 receives the surface heating element assembly 1 'and brings it back into the second drying chamber 7b.

In this case, as described above, the surface heating element assembly 1 'brought into the second drying chamber 7b is moved downward again like the drying process inside the first drying chamber 7a, It is understandable that the drying process will be carried out for a period of time. When the drying object and the surface heating element assembly 1 'reach the lower end of the second drying chamber 7b, the drying process is completed and the lower conveyor 9 and the second lift unit 7' (10) and the unloading conveyor (11). In this case, since the plurality of surface heat emission element assemblies 1 'are continuously supplied to the drying apparatus at predetermined time intervals, the plurality of surface heat emission element assemblies are automatically transferred from the loading side to the unloading side, to be.

The vertical transfer unit of the above-described surface heating element will be described in more detail as follows.

6 is a partially enlarged view of Fig. 6, Fig. 8 is a partial enlarged view of Fig. 7, and Fig. 7 is a partial enlarged view of Fig. BB line sectional view.

Referring to FIG. 5 or 6, the apparatus for vertically transferring a planar heating element of the present invention includes a planar heating element assembly 1 (see FIG. 1) for uniformly drying an object to be dried by receiving an electric force with an object to be dried 'Is provided with a planar heating element 1 in the form of a flat plate and the peripheral edge portion of the planar heating element 1 is fixedly supported in a state of being surrounded by the supporting frame 2.

On the other hand, at one end of the support frame 2, a connection portion 3 serving as a passage for applying an electric force to the surface heating element 1 is fixedly installed. When the connection frame 3 is vertically moved up and down, (3c) is brought into contact with the energizing rail (4) so as to be electrically energized. The electrifying rail 4 is further provided with a driving unit (not shown) for sliding movement in a state in which the surface heating element and the connecting portion are in electrical contact with each other. The driving unit may be designed in various forms. For example, when the elevator hoisting and lowering device is used, the driving unit may be vertically moved up and down in a vertical direction to support the plane heating element 1, the support frame 2, It is understandable.

On the other hand, the connection portion 3 is provided with upper and lower plates 3a and 3b for fixing the support frame 2 for supporting the edge of the surface heat emission element 1, A power connection portion 3d connecting the lower plates 3a and 3b and the planar heating element 1 so as to energize the power supply rail 4 is provided at one end of the upper and lower plates 3a and 3b, A contact electrode 3c for electrically contacting along the surface of the conductive rail is provided.

3 is a perspective view showing the structure of the energizing rail 4 according to the first embodiment of the present invention. The energizing rail 4 has three rail frames 4a that constitute the body of the energizing rail in the vertical direction. And an electrode rail 4b which is brought into contact with the electrode rail 4b so as to be energized when it is lifted and lowered in the vertical direction. The contact electrode 3c and the electrode rail 4b are elastically contacted with each other when the contact electrode 3c is slid vertically in the upper and lower plates 3a and 3b of the connection part 3 A tension spring 3e is provided to provide a spring force. Further, since the bolt fastening holes are formed at the upper end of the upper plate 3a, the upper plate 3a and the support frame 2 are fastened and fixed by bolts.

On the other hand, the connecting portion 3 and the current-carrying rail 4 are formed in a plurality of at least two sets for ease of designing with various types of power supply lines, and more preferably, as shown in FIGS. 5 and 6 Similarly, three sets can be placed for each of the left and right and middle parts.

7 and 8, the energizing rail 4 has a structure in which the electrode rails 4b are inserted and arranged along the vertical direction in the rail frame 4a constituting the body, And the contact electrodes of the connection portions 3 are brought into contact with each other so as to be energized. The upper and lower plates 3a and 3b of the connection part 3 are fixedly coupled to each other by a fastening bolt 3f and a contact electrode 3c is inserted into the upper and lower plates 3a and 3b, And a tension spring 3e is inserted so as to maintain a state of elastic contact with the electrode rail.

Hereinafter, the operation of the vertical transfer device according to the present invention will be described with reference to the accompanying drawings.

First, referring to FIG. 5, an electronic component requiring a drying process such as a liquid crystal display for a mobile phone is mounted as an article to be dried on a flat plate-shaped heat generating element 1, and a plurality of The planar heating element is moved up and down in the vertical direction.

Although the elevating and lowering conveying structure of the planar heating element 1 is not shown in the drawings, it can be realized in one form widely used in the related art. For example, by using the elevator raising and lowering device, It is to be understood that the support frame 2 and the connecting portion 3 associated therewith can be transported in the vertical direction together with the operation control of the driving portion preset for the drying process.

At this time, the contact electrode 3c of the connection portion 3 is brought into contact with the surface of the electrode rail 4b of the energizing rail 4 in the energized state so that the electrode rail 4b, It can be understood that it is slid and moved in the vertical direction in a state in which it can be energized. Accordingly, while the planar heating element 1 is being moved in the vertical direction, electric power is continuously applied to the planar heating element through the electrode rail 4b and the contact electrode 3c, so that the planar heating element can continue to generate heat.

Accordingly, in accordance with the drying process time of the set dried object (not shown), the driving unit is transferred to the next processing step in the vertical direction along the energizing rail in a state in which the objects to be dried are placed on a plurality of the surface heating elements 1, The efficiency of the work is improved because the cumbersome process that the worker has to take out, store and move the workpiece one by one is omitted.

Hereinafter, another embodiment of the drying apparatus using the planar heating element of the present invention will be described with reference to FIGS. 9 and 10 attached hereto. FIG. 9 is a front view schematically showing a drying apparatus using a planar heating element according to another embodiment of the present invention, and FIG. 10 is a schematic plan view of FIG.

Referring to FIG. 9, in the first and second drying chambers 7a and 7b of the other embodiments, a structure having a multi-stage tray structure is installed so that a plurality of the surface heating element assemblies 1 'can be inserted therein It is understandable that the surface heating element assembly 1 'is brought into and taken out of the drying apparatus by using a separate loading unit 13 and unloading unit 14. A turntable 16 is provided between the trays 15 of the first and second drying chambers so that the turntable is rotated in the horizontal direction and the first and second drying chambers 7a, And carries out the function of carrying in and out the heating element assembly 1 '. Accordingly, the laundry to be dried in the first drying chamber 7a is transferred from the first drying chamber 7a to the second drying chamber 7b while being rotated in the horizontal direction by the turntable 16, (15). The tray and the turntable may be constructed by applying any one of the well-known designs in the art, and detailed description of the construction and operation will be omitted.

At this time, when the trays 15 of the first and second drying chambers 7a and 7b are vertically conveyed to the upper and lower sides, the planar heating elements 1 disposed in the respective trays 15, as described in the embodiment, The electric power can be supplied while being frictionally energized along the electric wire 4. Thus, the drying process is completed for the preset time period in which the objects to be dried are seated in the respective trays 15 of the first and second drying chambers 7a and 7b, and then the drying process is carried out through the unloading unit 14 It is understandable.

In another modification of the upper tray structure, the surface heating element 1 is provided in advance in each of the trays 15 of the first and second drying chambers 7a and 7b so that the turntable 16 can dry only the laundry, To the tray 15 of the second drying chamber 7b from the tray 15 of the second drying chamber 7a.

Accordingly, as described in the above-described embodiment, the drying process can be performed while continuously transferring the plurality of surface heating element assemblies, or the drying can be carried out vertically using the multi- It is possible to perform deformation design of the drying apparatus in various forms such that the drying process can be carried out by using the drying apparatus. Therefore, it is to be noted that the present invention can be added and modified in various forms within the scope of the technical idea.

1 ': Surface heating element assembly
1: plane heating element
2: Support frame
3: Connection
3a: upper plate, 3b: lower plate, 3c: electrode portion, 3d: power connection portion,
3e: tension spring, 3f: fastening bolt
4: Energizing rail
4a: rail frame, 4b: electrode rail
5: Loading conveyor
6: First lift unit
7: Drying room
7a: first drying chamber, 7b: second drying chamber
8: Feed unit
9: Lower conveyor
10: Second lift unit
11: Unloading conveyor
12: Elevator
15: Tray
16: Turntable

Claims (10)

A planar heating element assembly for transporting and fixing the planar heating element in a state of being provided with a flat plate type heating element which uniformly dries the dried object by receiving an electric force in a state where a drying object is placed on the upper surface;
A loading conveyor to which the planar heating element assembly is fed;
A first drying chamber for drying the planar heating element assembly carried by the loading conveyor while moving the planar heating element assembly in a vertical direction of any one of an upward direction and a downward direction;
A second drying chamber for performing drying while moving the planar reflector assembly taken out from the first drying chamber in a direction opposite to the moving direction in the first drying chamber;
A horizontal transfer unit for transferring the surface heating element assembly taken out from the first drying chamber to the second drying chamber;
And an unloading conveyor for discharging the planar heating element assembly from the second drying chamber. The method according to claim 1,
Further comprising first, second lift units and a lower conveyor for transferring the surface heating element assemblies between the loading conveyor and the first drying chamber, and between the second drying chamber and the unloading conveyor. The method according to claim 1,
Wherein the horizontal transfer unit is a linear transfer device that lifts the surface heating element assembly of the first drying chamber by a plurality of hands and then moves linearly to the second drying chamber. The method according to claim 1,
The planar heating element assembly includes:
A support frame fixedly supporting an edge of the planar heating element;
A connection part fixed to one end of the support frame and serving as a passage for applying an electric force to the planar heating element;
An energizing rail that is brought into contact with the connecting portion so as to energize when the connecting portion is vertically moved up and down;
And a driving unit that vertically transfers the planar heating element and the connection portion in an electrically contacted state to the conductive rail. 5. The method of claim 4,
Wherein the connecting portion comprises:
An upper and a lower plate for fixing the support frame;
A power connection part formed at one side of the upper and lower plates and electrically connecting the upper and lower plates and the surface heating element to each other;
And a contact electrode formed on one end of the upper and lower plates and electrically contacting the surface of the conductive rail. 5. The method of claim 4,
Wherein the energizing rail comprises:
A rail frame constituting a body of the energizing rail;
And an electrode rail which is inserted into the rail frame and brought into contact with the contact electrode when the contact electrode is vertically moved up and down. 6. The method of claim 5,
And a tension spring for providing a resilient force to the contact electrode is provided inside the upper and lower plates of the connection part. 8. The method according to any one of claims 4 to 7,
Wherein the connecting portion and the energizing rail are formed in a plurality of at least two sets. The method according to claim 1,
Wherein the first and second drying chambers are provided with a vertical conveying device of a multi-stage tray structure in which an area heating element is inserted in each stage. 10. The method of claim 9,
Wherein the horizontal transfer unit is a rotatable transfer device for rotating and transferring an object to be laid on each of the multi-stage trays of the first and second drying chambers by a turntable.

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