KR20110092653A - Dry system - Google Patents

Abstract

PURPOSE: A dryer is provided to easily maintain and repair the floor because the floor is formed into the various types. CONSTITUTION: A dryer comprises a drying booth(100), a plurality of heaters, a door, and a traveling device(200). The drying booth has the space positioning the component on inside. A plurality of heaters is installed on both wall surfaces facing each other in plural rows. The door is installed in the wall facing of the drying booth in which the heater is not installed. The traveling device is installed among the inside of building in the top end of the drying booth. The traveling device transfers the drying booth to the arbitrary internal space of the building.

Description

Drying Equipment {Dry system}

The present invention relates to a drying apparatus, and more particularly, to a drying apparatus that can be easily dried in the case of a large-size building by moving the drying booth by a moving device located on the ceiling.

Drying equipment is applied to various industries and is produced and sold in various ways according to the applied field, and the drying method is also classified into far-infrared ray, hot air type, low temperature drying, etc. Indicates a difference.

In the case of painting and drying of automobiles, industrial machines or ship parts, the size of the target parts is relatively large compared to the drying of other products, and in particular, ship parts may not be able to move without using a crane. .

In the case of such a large part, the drying heater is conventionally manufactured and used in the dryer booth. The drying heater is equipped with a heater on the support and the wheel is mounted on the lower portion of the support to move the drying heater to perform the drying of the parts.

The above method uses a large number of individual heaters. When the installation position of the heater is not fixed and the operator does not recognize the installation position and the number of use of a relatively large part, the drying speed is different depending on the position of the part, so that the quality is accurate. There is a drawback of not being able to get dry goods.

In order to overcome the above technique in which the position of the heater is not fixed, a drying apparatus has been proposed, in which a plurality of heaters are mounted on a wall of a mobile booth, and the booth is moved by a rail installed at the bottom. The method has a high drying efficiency and a relatively uniform drying quality by moving the booth.

However, the rail is installed on the bottom, which requires a uniform plane, and may also interfere with the movement of parts due to the presence of the rail. In addition, since the drying apparatus always includes a painting process, the coating liquid is sprayed on the floor in the painting process, and thus the reflection of the drying floor must be relatively clean.

In addition, the parts for painting and drying should always be in the required position, but also has the disadvantage of uniformity of the drying, there is a need for a drying device having a uniform drying characteristics in the position of the free parts.

An object of the present invention is to provide a drying apparatus which is devised to overcome the above-mentioned disadvantages, and which is easy to maintain and which can obtain drying of uniform quality regardless of the position of the drying apparatus parts.

In order to achieve the above object, the present invention is a drying device for drying a product located in a building located inside the building, including a plurality of heaters, the drying booth in the form of a rectangular parallelepiped having a space for placing the drying parts therein ; A plurality of heaters mounted in a plurality of rows on both wall surfaces of the drying booth; A door installed on an opposite wall surface of a dry booth in which the heater is not mounted; And it is characterized in that it comprises a traveling device that is installed on the top of the drying booth in the building to move the drying booth to any location inside the building.

Preferably, the drying booth further comprises a sealing member for improving airtightness at the lower end of the blower and the ceiling for the flow of internal air.

In addition, the traveling device is in the vertical direction by a traveling rail installed on the top of the building, a trolley moving in the direction of the running rail on the traveling rail, a moving body moving in the trolley direction on the trolley rail formed on the trolley, and in a vertical direction by a rotating shaft installed on the moving body. It includes a moving wire to move, the end of the moving wire is connected to the drying booth characterized in that the drying booth is moved by the movement of the traveling device.

In addition, the door is installed in the drying booth is characterized in that the shutter.

In addition, it characterized in that it further comprises a control device for the operation of the heater, blower and shutter.

In addition, the control device is characterized in that for controlling the temperature of the heater by heat or wall surface.

The present invention has the following effects by the problem solving means described above.

1) Provide a uniform drying quality by providing a closed space regardless of the size of drying parts.

2) It is easy to move large parts in the drying process.

3) The floor can be implemented in any form, which is convenient for the maintenance of the floor.

4) Installation cost is relatively low since it can be moved to a single booth.

1 is a front view showing the configuration of a drying apparatus according to the present invention,
2 is a configuration diagram illustrating the traveling device of FIG. 1;
3 is a configuration diagram illustrating an external appearance of the drying booth of FIG. 1,
4 is a configuration diagram illustrating an arrangement of a heater installed in the drying booth of FIG. 3.
5 is a configuration diagram illustrating a fixing structure of the heater of FIG. 3;
6 is a configuration diagram illustrating a structure of two dry booths in the configuration of FIG. 1,
7 is a configuration diagram illustrating a working procedure of the drying apparatus of FIG. 1,
8 is a configuration diagram illustrating another embodiment;
9 is a perspective view of FIG. 8.

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

1 is a front view showing the configuration of a drying apparatus according to the present invention, FIG. 2 is a configuration diagram illustrating the traveling apparatus of FIG. 1, FIG. 3 is a configuration diagram illustrating an appearance of the drying booth of FIG. 1, and FIG. 4. 3 is a configuration diagram illustrating an arrangement of a heater installed in the drying booth of FIG. 3, FIG. 5 is a configuration diagram illustrating a fixing structure of the heater of FIG. 3, and FIG. 6 is two drying booths in the configuration of FIG. 1. It is a block diagram explaining a structure, FIG. 7: is a block diagram explaining the operation procedure of the drying apparatus of FIG.

The present invention is characterized in that the drying booth 100 is moved vertically and horizontally by the traveling device 200 installed on the top of the building (10).

1 and 7, the drying apparatus of the present invention is a rail device 200 installed at the upper end of an inner space of a building 10 for drying and a drying booth 100 moved by the rail device 200. It is configured to include.

First, as shown in FIG. 2, the rail device 200 includes a running rail 210, a trolley 220, a moving body 230, and a moving wire 240. The running rail 210 is installed at a certain height in the building 10, it is preferable to install higher than all the machines installed in the building 10, two in the same form are installed at a predetermined distance apart.

 The trolley 220 is installed on an upper end of the traveling rail 210, and the trolley 220 moves in the X direction in the direction of the traveling rail 210, and moves on a trolley rail 221 formed on the trolley 220. 230 is installed and moves in the Y direction, which is the direction of the trolley 220, and as a result, the movable body 230 is movable anywhere in the plane of XY.

 The movement of the trolley 220 and the movable body 230 is driven by a motor installed therein, and the power cable 190 is mounted on the side of the running rail 200 to allow the trolley 220 and the movable body 230 to move the electric motor. Supplies additional power to the heater 310 and the blower 330 installed in the drying booth 100.

Since the distance between the running rails 210 determines the movement of the drying booth 100 in the Y direction, it is adjustable according to the area to be applied to the drying process, and when the drying line is formed in a straight line, a relatively short distance is formed and a plurality of drying In the case of lines, they must be formed at a distance that includes each drying line.

In addition, a rotating shaft 231 is installed in the movable body 230, and the moving wire 240 is driven in the Z direction by the rotation of the rotating shaft 231. The rotating shaft 231 is connected to the motor, the motor is also supplied with power by a power cable.

The end of the moving wire 240 is connected to the upper end of the drying booth 100, the drying booth 100 is moved up / down in accordance with the up / down movement of the moving wire 240.

In addition, if necessary, the moving wire 240 may be used in plural in a single rotating shaft 231.

In addition, a hook may be mounted at the end of the moving wire 240.

The rail device 200 controls the motor driving the trolley 220, the moving body 230 and the moving wire 240 by an external remote control connected by a wire, if necessary, a wireless remote control by a wireless device can be applied. .

Meanwhile, the drying booth 100 has a rectangular parallelepiped shape as shown in FIGS. 1 and 3, and includes a ceiling 110, a front wall 120, a rear wall 130, a left wall 140, and a right wall 150. ), The size of which is changed according to the applied product 30, and the relative size of the wall is also adjusted.

For example, the height may be configured relatively high, or the width may be configured narrow.

The ceiling 110 is coupled to the moving wire 240 is lifted to the upper end has a strength enough to support the weight of the drying booth 100 itself.

The upper portion of the ceiling 110, the structure 111 is coupled to the moving wire 240 is installed. The structure 111 also has its own strength to support the entire weight of the drying booth 100, and also the bonding strength with the ceiling 110 can withstand the total weight of the drying booth 100.

If necessary, a plurality of structures 111 may be installed. In this case, wires coupled to each structure 111 may be added, and the moving wires 240 may be connected at points where the wires meet, and the moving wires may be provided if necessary. A hook may be installed at the end of 240 and the hook may be connected to the point where the Waia meets.

In addition, four structures 111 are installed at each corner of the ceiling 110, and additional wires are coupled to the structure 111, and the movable wire 240 is connected to a point where the additional wires meet. Can be configured. Since this configuration supports the dry booth 100 at four points, the structure is advantageous for the horizontal maintenance of the dry booth 100 compared to a single support, and the additional wire may vary in size depending on the center of gravity of the dry booth. have.

The ceiling 110 of the drying booth 100 includes a wire hole 112 for connecting the power cable 190 to the internal space.

The power cable 190 passing through the wire hole 112 is electrically connected to a heater 310, a blower 330, and a driving unit for driving the electric shutter 150.

In addition, when a plurality of moving wires 240 are applied, the structure 111 may also be applied in plurality.

A plurality of heaters are disposed in the drying booth 100 to heat the space therein.

The heater is fixed inside the rear wall 130 as shown in FIG. The heater 310 is fixed to the frame 320 horizontally installed on the wall, the frame 320 is a space formed therein, the power cable is located in the space, each power cable is the heater 310 ) Is supplied to heat the heater 310.

Two upper and lower frames 320 are mounted on the rear wall 130, and a plurality of heaters 310 are mounted on the frame 320. The heater 310 is fixed to the frame 320 and at the same time the power is supplied by a power cable located inside the frame 320.

The heater 310 forms a row by the frame 320, and the number of the frames 320 is not limited to two, and if necessary, three or more rows may be mounted on the rear wall 130. In addition, the heater 320 may also be equipped with one or more in a row.

The plurality of heaters 310 mounted on the entire rear wall 130 form one zone.

The heater 320 may be applied to any method such as far-infrared radiation, radiant heat, hot air, etc., and is fixed to the frame 320 by a connection member 312 including a hinge 311 as shown in FIG. The angle of the heater 310 can be adjusted. If necessary, it can be mounted in a configuration that can adjust the height by adding an additional hinge between the connecting member 312 and the frame 320.

On the other hand, the front wall 120 is implemented in the same form as the configuration of the rear wall 130. If necessary, the front wall 120 may be configured by varying the number and the number of heaters 320 configured in the rear wall 130. At this time, since the amount of heat emitted from the rear wall 130 and the front wall 120 is different, it is suitable for drying parts that have different drying speeds for each surface.

In addition, temperature can be controlled separately for each row and each zone, and for each control, a separate temperature sensor is installed for each row and each zone. If all the heaters 310 to control the temperature alone is equipped with a separate temperature sensor for each heater (310).

Inside the ceiling 110, a blower 330 for circulating air in the inner space is mounted. Power of the blower 330 is also supplied from the outside by a hole formed in the ceiling 110, and operates simultaneously with the operation of the heater 310, it can be controlled to be operated separately if necessary.

The left / right wall surfaces 140 and 150 of the drying booth 100 include an open door, and the door is preferably a shutter 170. The shutter 170 does not require side space at the time of opening and does not cause interference with other machines or components.

The shutter 170 may be opened and closed manually, and may be electrically installed if necessary. In the case of the electric shutter 170, the power is supplied from the outside and driven by an external control device.

The shutter 170 is opened when the drying booth 100 moves, and closed when the drying booth 100 starts to dry.

The control unit 400 of the heater 310 and the blower 330 may be attached to the outer body of the drying booth 100, it may also be installed on the outside independently.

The controller 400 may set various types of drying conditions, and may also be configured to control temperature by heat or zone.

It can also be temperature controlled over time and, if necessary, programmed to run drying conditions for each product.

When the control device 400 is installed independently from the outside, the control device 400 may be configured to be movable so as to be linked to the movement of the drying booth 100, and if necessary, a control cable may be formed to be fixed and installed.

The bottom of the drying booth 100 is equipped with a sealing member 160 for sealing with the bottom surface. The sealing member 160 may be used, such as vinyl, cloth.

On the other hand, the bottom surface of the drying booth 100 may be any bottom as long as the part is supported. Especially when used in conjunction with the painting process, easily replaceable gravel floors are also possible, as well as plain concrete floors with no surface finish.

If necessary, the drying booth 100 may be connected to two drying booths 100 as shown in FIG. 6.

In addition, if necessary, one of the drying booth 100 may be used as a booth for painting and the other as a drying booth.

In particular, in the case of a paint booth, the heater 310 may be deleted.

The following describes the operational relationship of the present invention with reference to FIGS. 3 and 7.

First, the product 30 is received on the floor 20 inside the building 10. Since there is no facility on the floor, the product 30 can be easily moved using a forklift or the like.

And paint it. The painting may be performed in an open type, but when the two booths are used, the coating side booth may be moved to a position of the product 30 to be performed in the painting booth.

In the next step, the drying booth 100 located at the top is moved by the rail device 200 to stop at the position surrounding the product 30 and then lowered down.

In the next step, the shutter 150 of the left and right walls 140 and 150 is closed to form a closed space.

Next, power is supplied to the heater 310 and the blower 330 located in the drying booth 100, and drying is performed under the condition input to the control device 400.

Next, when drying is completed, the shutter 150 is opened, and the drying booth 100 is lifted upward to move in a specific direction.

Thereafter, the dried product 30 is shipped using a moving means such as a forklift truck.

Meanwhile, when the drying product 30 can be regularly arranged, such as the drying products 30 are arranged in a row on the building floor, the movement of the drying booth 100 is reduced as shown in FIGS. 8 and 9. Embodiments limited to the orientation are also possible.

The embodiment is configured by directly connecting the metal bar 240 between each corner of the drying booth 100 and the rail device 200.

The rail device 200 may move only in the direction of the rail 210, and the drying booth 100 may also move only in the direction of the rail 210.

Maintain a constant clearance between the drying booth 100 and the floor to reduce the friction during movement, if necessary attach a friction-resistant material to the contact surface of the dry booth 100 in contact with the floor.

As shown in FIG. 8, when the product 30a has been dried, the shutters 170 formed on both sidewalls are opened to move the drying booth 100 to the next dry product 30b by the rail device 200. After the movement is completed, the shutter 170 is lowered to perform drying.

Although the embodiment of the present invention has been described with respect to the drying of the coated product, it can be applied to any article that requires drying, such as agricultural products.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, And all of the various forms of embodiments that can be practiced without departing from the technical spirit.

10: building 20: floor
30: Product 100: Dry Booth
110: ceiling 111: structure
112: wire hole 120: front wall
130: rear wall 140: left side wall
150: right side wall 160: sealing member
170: shutter 190: power cable
200: rail device 210: running rail
220: trolley 221: trolley rail
230: mobile body 231: rotation axis
240: moving wire 241: metal rod
311 hinge 312 connecting member
310: heater 320: frame
330: blower 400: controller

Claims (7)

A drying apparatus for drying a product located in a building and located therein including a plurality of heaters,
Dry booth in the form of a rectangular parallelepiped having a space for positioning the dry parts therein;
A plurality of heaters mounted in a plurality of rows on both wall surfaces of the drying booth;
A door installed on an opposite wall surface of a dry booth in which the heater is not mounted; And
And a traveling device installed on an upper portion of the drying booth in the building to move the drying booth to an arbitrary position in the building.
The drying apparatus according to claim 1, wherein the drying booth further comprises a sealing member for improving airtightness at the bottom of the blower and the lower end of the ceiling for the flow of internal air.
According to claim 1, The traveling device is a travel rail installed on the top of the building, a trolley moving in the direction of the running rail on the running rail, a moving body moving in the trolley direction on the trolley rail formed on the trolley, the rotary shaft installed in the moving body And a moving wire moving in a vertical direction, wherein an end of the moving wire is connected to the drying booth so that the drying booth is moved by the movement of a traveling device.
The drying apparatus according to claim 1, wherein the door installed in the drying booth is a shutter.
The drying apparatus according to claim 1, further comprising a control device for the operation of the heater, the blower, and the shutter.
The drying apparatus according to claim 6, wherein the control device controls the temperature of each heater by heat or wall surface.
The method of claim 7, wherein the traveling device includes a travel rail installed on the top of the building, the trolley to move in the direction of the running rail on the running rail, the trolley and the drying booth is connected by a metal rod by the movement of the travel device Drying apparatus, characterized in that the drying booth is moved.

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