KR101934701B1 - Molding material drying device - Google Patents

Abstract

The present invention relates to a molded article drying apparatus, and more particularly, to a molded article drying apparatus which removes moisture remaining on the surface of a molded article that has been cleaned to prevent the occurrence of corrosion and contamination of the molded article due to moisture remaining on the surface, ≪ / RTI >

Description

[0001] Molding material drying device [0002]

The present invention relates to a molded article drying apparatus, and more particularly, to a molded article drying apparatus which removes a washing liquid remaining on a surface of a molded article after a washing process by means of a washing liquid to prevent corrosion and contamination of the molded article caused by the washing liquid remaining on the surface, In the case of a molded article drying apparatus.

As is well known, the surface of the machined workpiece is covered with cutting oil for cutting, and the injection molding or press working molds remain in the injection mold or the mold release material in order to easily separate the mold from the mold during injection molding or press working. do.

Accordingly, in the art, in order to remove foreign matter adhering to the surfaces of such moldings, a cleaning liquid is injected into the moldings continuously formed by machining, injection molding or press working to be transferred, A cleaning process is carried out.

In addition, a hot air drying step of discharging high temperature hot air to the molded article having the cleaning liquid on the surface thereof by the cleaning step to dry and remove the cleaning liquid adhered to the molded article is essentially performed.

In the hot air drying process, the molded product after the cleaning process is introduced into the hot air drying chamber through the conveying conveyor, and hot air is discharged to the surface of the molding through the hot air nozzle.

By removing the cleaning liquid adhering to the surface of the molded product through the hot air, it is possible to prevent the corrosion of the molded product due to the cleaning liquid and the occurrence of unevenness on the surface of the molded product.

However, the molded product usually has a long tube or groove portion, and the washing solution remaining in the tube portion or the groove portion of the molded product has a limitation that it is difficult to stably remove even the hot air is discharged.

Of course, it is possible to stably remove the washing liquid remaining in the tube portion and the groove portion by discharging hot air at a high temperature for a long period of time to increase the temperature of the molding by a large amount of hot air. However, this is not preferable from the viewpoint of productivity, It is difficult to secure.

Accordingly, Korean Patent Registration No. 10-0738856 and Patent Publication No. 10-0991135 propose a vacuum drying apparatus for vacuum-drying a molded article which has been cleaned in a vacuum state.

When the molded article is stored in a vacuum state through the vacuum drying process and the washing liquid adhered to the surface of the molded article is removed by vacuum evaporation, moisture remaining on the surface can be stably removed.

However, in the conventional vacuum drying apparatus, a vacuum state is simply formed in a vacuum drying furnace to remove the washing liquid by vacuum evaporation, and then the vacuum drying furnace is opened to take out and discharge the molded product.

First, since the conventional vacuum drying apparatus is configured to evaporate the cleaning liquid remaining on the surface of the molded article simply by relying on vacuum drying, a large amount of time is required to vacuum evaporate a large amount of the cleaning liquid remaining in the tube portion or the groove portion of the molded article, The productivity is low.

Secondly, in the conventional vacuum drying apparatus, when vacuum drying is performed and then the vacuum drying furnace is opened, atmospheric air in which a large amount of water is mixed is instantaneously introduced into the vacuum drying furnace, and the water condenses on the surface of the molding Problems arise.

Third, since the conventional vacuum drying apparatus has not been automatically input and discharged, it has been pointed out that a worker needs to input and discharge a molded product.

Fourth, since the conventional vacuum drying apparatus is configured to draw air remaining in the vacuum chamber by the vacuum suction force of the vacuum pump, it is difficult to form a higher degree of vacuum in the vacuum chamber, and therefore, Was difficult to achieve.

KR 100518934 B1 KR 200256642 Y1 KR 100738856 B1 KR 100991135 B1

It is an object of the present invention, which is devised to overcome the above-described problems, to provide a method for removing a cleaning liquid remaining on a surface of a molded product by sequentially performing a hot air drying process and a vacuum drying process, And a vacuum drying unit for performing the vacuum drying process is improved to stably remove the washing liquid remaining in the hot-air dried molding in a short time.

The above object is achieved by the following constitutions provided in the present invention.

The molded article drying apparatus according to the present invention comprises:

A vacuum chamber for containing the molded product after the hot air drying is shielded from the outside;

A vacuum inhaler for evacuating air remaining in the vacuum chamber through a vacuum suction pipe to form an internal space of the vacuum chamber in a vacuum state; And

A vacuum state is formed by the vacuum inhaler to evacuate the cleaning liquid on the surface of the molded product, and the dehumidified cooling air is supplied into the vacuum chamber through the air supply duct to remove the dehumidified cooling air from the inner space of the vacuum chamber And a cooling dehumidifier for forming an equalizing pressure,
The vacuum chamber includes an upper opening type enclosure and a lid for closing an upper portion of the enclosure, and a cradle for holding a pallet in which molded products are fixedly arranged is disposed inside the enclosure,
The moldings are placed in a floating state inside the vacuum chamber by a holder,
The cradle is provided with a lead-in terminal for supplying current to the pallet on which the molded articles are mounted,
And a cleaning nozzle for discharging compressed air downward along the inner wall of the enclosure is disposed on the inner wall of the housing.

Preferably, the vacuum sucker vacuum-sucks the internal air of the vacuum chamber to form a vacuum state inside the vacuum chamber, and performs a vacuum drying process for removing the washing liquid contained in the vacuum chamber by vacuum evaporation and,

The cooling and dehumidifying device sequentially performs an equal pressure forming step of supplying dehumidified cooling air into the vacuum chamber after completion of the vacuum drying step and forming an even pressure between the inside of the vacuum chamber and the atmosphere,

When the vacuum chamber is opened, the atmospheric air flows into the surface of the vacuum-dried molded article due to the pressure deviation between the inside of the vacuum chamber and the atmosphere, so that the moisture contained in the air directly reaches the surface of the molded article, .

In addition, the cradle is installed in a rotating structure in a housing, and the cradle is configured to rotate by receiving a rotational force from an electric motor, and the molded product is configured to centrifugally remove a cleaning solution on the surface while rotating in a vacuum drying process.

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As described above, the present invention proposes a drying apparatus in which a hot air drying step for discharging hot air at a high temperature is carried out on a molded article after washing, and a vacuum drying step is sequentially performed on the molded article, And the cleaning liquid remaining in the grooves is quickly and stably removed.

Particularly, in the present invention, a vacuum state is formed in a vacuum chamber accommodating a molded product to vacuum-dry the molded product, and then the vacuum-dried molded product is taken out in a vacuum chamber. The vacuum chamber is filled with dehumidified cooling air, Thereby forming an even pressure between the inside of the chamber and the atmosphere.

Therefore, when the vacuum chamber is opened, air in the atmosphere containing a large amount of water is introduced into the molding by the pressure difference between the vacuum chamber and the atmosphere, so that the remaining water is prevented from condensing on the surface of the molding, Occurrence of re-contamination of the molding due to the condensed water can be suppressed.

1 and 2 are a front view and a plan view of the overall structure of a molding material drying apparatus proposed as a preferred embodiment of the present invention,
FIG. 3 shows the operation state of the hot air drying unit in the molded article drying apparatus proposed in the preferred embodiment of the present invention,
Fig. 4 shows a detailed structure of a vacuum drying unit in a molded article drying apparatus proposed as a preferred embodiment of the present invention,
5 to 8 are diagrams for explaining a method for drying a molded article according to a preferred embodiment of the present invention. The apparatus for drying a molded article according to the present invention is characterized in that the vacuum drying section includes a step of charging a molded product M, a vacuum drying step, a dehumidifying air supplying step, Discharge, and cleaning process of the enclosure in sequence.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

Fig. 1 and Fig. 2 are a front view and a plan view of the overall structure of the apparatus for drying a molded article proposed as a preferred embodiment of the present invention. Fig. 3 is a schematic view of the apparatus for drying a molded article proposed in the present invention And FIG. 4 is a view showing a detailed configuration of a vacuum drying unit in a molding material drying apparatus proposed as a preferred embodiment of the present invention, and FIGS. 5 to 8 illustrate a vacuum drying unit according to a preferred embodiment , The vacuum drying unit sequentially displays the step of charging the molded product (M), the vacuum drying step, the dehumidifying air supplying step, the discharge of the dried product, and the cleaning step of the enclosure .

The molded article drying apparatus 1 proposed in the preferred embodiment of the present invention is a device for drying a molded article M that has been cleaned in the cleaning apparatus while stepwise moving the molded article M, To prevent corrosion of the molded product (M) and damage to the appearance due to occurrence of stains.

The molded article drying apparatus 1 includes a hot air drying step of discharging a hot air of high temperature onto the surface of the molded product M to dry the cleaning liquid, a step of vacuum-evaporating the molded article M after the hot air- And a vacuum drying step for removing the organic solvent.

1 and 2, the apparatus 1 includes a hot-air drying unit 100 for hot-air drying a molded product M by discharging high-temperature hot air to the surface of a cleaned molded product M, ; And a vacuum drying unit 200 for receiving the hot-air drying processes M while being passed through the hot air drying unit 100 in a vacuum state and vacuum-evaporating the cleaning liquid remaining on the surface.

3, the hot air drying unit 100 includes a first hot air drying chamber 110 and a second hot air drying chamber 120 formed in a divided manner, and the hot air drying chambers 110 and 120 are provided with hot air The hot air nozzles 131 of the hot air fan 130 for discharging the hot air are arranged.

The molded products M which have been cleaned in the cleaning device (not shown) are fixedly arranged on the pallet P and are conveyed to the respective hot air drying rooms 110 and 120 constituting the hot air drying part through the conveying conveyor 310, While sequentially passing through.

The hot air drying chambers 110 and 120 are composed of a tunnel structure having an inlet and an outlet respectively opened and raised and lowered by an elevating member 112 composed of a pneumatic cylinder at the inlet and the outlet of each of the hot air drying chambers 110 and 120 When the molds M fixedly arranged on the pallet P are inserted into the respective hot air drying chambers 110 and 120 by the section transfer action of the conveying conveyor 310, The inlet and outlet of the drying chambers 110 and 120 are closed by a descending elevating door 111. In this state, the hot air nozzles 131 disposed in the respective hot air drying chambers 110 and 120, 110, and 120, so that the molded product M is hot-air dried.

At this time, the hot air nozzles 131 disposed in the respective hot air drying chambers are configured to be elevated and lowered by the elevating cylinder 132, and the hot air nozzles 131 are lifted up and down by the expansion and contraction action of the elevating cylinder 132, So that hot air can be discharged in a state of being closer to the surface of the heat exchanger.

According to the present embodiment, the hot air drying chambers 110 and 120 are heated at a high temperature of 70 ° C to 80 ° C by hot hot air discharged through the hot air nozzles 131, Heat the hot air.

Accordingly, the molds M having been subjected to the cleaning process in the cleaning apparatus sequentially pass through the first hot air drying chamber 110 and the second hot air drying chamber 120 by the section transfer operation of the conveying conveyor 310, The molded articles M injected into the hot air drying chambers 110 and 120 are sequentially subjected to the first hot air drying step and the second hot air drying step by high temperature hot air discharged from the hot air nozzle 131, .

The molded articles M after the hot air drying process are charged into the vacuum drying unit 200 and stored in a vacuum state so that the cleaning liquid deposited on the surface of the molded product M is vacuum evaporated to remove the cleaning liquid Is completely removed.

1, 2 and 4 to 8, the vacuum drying unit 200 includes a pallet P which is shielded from the outside and has a hot-air dried molded product M fixedly arranged thereon, A vacuum chamber 210 for storing the vacuum chamber 210; And a vacuum inhaler 220 for forcibly sucking the air in the vacuum chamber 210 through a vacuum suction pipe 221 communicating with the vacuum chamber 210 to form a vacuum state in the vacuum chamber 210.

The vacuum chamber 210 includes an upper opening type enclosure 211 and a lid 212 for closing the upper portion of the enclosure 211. The lid 212 is fixed to the movable member 214 And a lifting member 216 is arranged between the movable member 214 and the lid 212 to lift the lid 212 up and down.

A movable member 214 for moving the lid 212 in the longitudinal direction and a lifting member 216 for lifting and lowering the lid 212 may be a pneumatic cylinder or a ball screw.

Therefore, the lid 212 sets the opening / closing state of the housing 211 by the lifting and lowering action by the lifting member 216 and the forward and backward action by the lifting member 214. [

The lid 212 is retracted longitudinally by the movable member 214 and moves laterally as described later so that the pallet P in which the molded products M are fixedly arranged is fed to the housing 211 Interference with the gripper 320 is prevented.

Between the vacuum chamber 210 and the conveying conveyor 310, a pallet P fixedly arranged with the hot-air dried shaped products M is moved in the vertical and horizontal directions, And a conveying gripper 320 to be placed on the formed stand 213 is disposed.

5, the conveying gripper 320 includes a movable member 321 which moves laterally between the conveying conveyor 310 and the vacuum chamber 210; A gripper member (322) having a pair of nipping pieces (322a) that are simultaneously inwardly inserted into the left and right sides and arranged symmetrically; And an elevating member 323 for mounting the gripper member 322 on the movable member 321 in an elevating structure.

The lid 212 that has closed the upper portion of the opened housing 211 is lifted by the lifting member 216 and then retracts longitudinally along the retractable guide 215 by the movable member 214. [

5, the conveying gripper 320 is disposed in the housing 211 by vertically moving the pallet P in which the hot-air-dried molded articles M are fixedly arranged while passing through the hot air drying unit 100, After the vacuum drying process is completed, the pallet P having the vacuum-dried molded articles M fixed in the housing 211 is taken out and discharged to the outside as shown in FIG.

In this embodiment, the cradle 213 is provided in the housing 211 in a rotating structure, and the cradle 213 provided in the rotating structure is rotated at a high speed .

Accordingly, the moldings M, which are accommodated in the vacuum chamber 210 and vacuum-dried, are centrifugally separated from the surface of the cleaning solution while rotating at a high speed by the rotational force provided by the electric motor 213a as shown in FIG. 6, Is more reliably removed.

At this time, a mechanical fixing structure may be adopted in which the pallet P fixedly arranging the moldings M is physically fixed to the holder 213.

4, an electromagnetic force generating unit 213b for generating an electromagnetic force is disposed so that the pallet P and the molded products M, which are rigid bodies, are fixed to the cradle 213 via the electromagnetic force emitted from the electromagnetic force unit 213b So that the phenomenon that the molded articles M arranged on the pallet P and the pallet P are prevented from flowing or being separated from each other during the high-speed rotation of the holder 213 can be prevented.

4, a draw-in terminal 217 for supplying a current to the pallet P on which the molded products M are placed is disposed on the pallet P or the pallet P, The moldings M are temporarily heated to generate resistance by the current drawn through the lead terminals 217 to completely evaporate the cleaning liquid remaining on the surface.

Accordingly, the vacuum drying unit 200 according to the present embodiment includes a vacuum drying process for forming a vacuum state in the vacuum chamber to vacuum evaporate the cleaning liquid, a centrifugal separation process for centrifuging the molding through high-speed rotation of the holder, Or a resistance heating process in which the molded article is heated to generate resistance, the cleaning liquids which have not been removed by the hot air drying process by the hot air drying unit are completely removed.

The moldings M in which the cleaning liquids are completely removed in the vacuum chamber 210 are taken out by the conveying gripper 320 while being fixedly arranged on the pallet P as shown in FIG.

When the vacuum chamber 210 is opened to collect the molded products M in the vacuum chamber 210 by vacuuming the vacuum chamber 210 to evaporate and remove the cleaning solution on the surface of the vacuum chamber 210, The air in the atmosphere containing a large amount of water is introduced into the surface of the moldings M by the pressure deviation between the inside of the molds 210 and the atmosphere, A phenomenon of condensation may be caused.

In order to solve this problem, in the present invention, in a vacuum chamber 210 in which a vacuum state is formed by the vacuum inhaler 220 to evaporate a cleaning liquid adhering to the surfaces of the moldings M, A cooling / dehumidifying device 230 for forming an inner pressure and an even pressure of the internal pressure of the vacuum chamber 210 in which a vacuum state is formed by supplying cooling air is added.

Here, the cooling and dehumidifying device 230 is configured to perform dehumidification and cooling of moisture remaining in the outside air by heat exchange with the evaporator by passing outside air through the evaporator that is cooled while vaporizing the refrigerant compressed through the refrigeration cycle, The dehumidified cooling air generated through the cooling dehumidifier 230 is supplied into the vacuum chamber 210 after the vacuum drying process through the air supply duct 231 as shown in FIG.

Accordingly, the molded product M stored in the vacuum chamber 210 is vacuum evaporated by the vacuum state formed by the vacuum suction action of the vacuum inhaler 220, and then supplied through the cooling and dehumidifying device 230 The dehumidified cooling air forms an even pressure between the atmosphere and the inside of the vacuum chamber 210.

Thus, when the vacuum chamber 210 is opened to take out the molded article after the vacuum drying process, air in the atmosphere is introduced into the surface of the moldings M by a pressure deviation between the vacuum chamber 210 and the atmosphere, The phenomenon that the moisture remaining in the air condenses on the surface of the molded products M can be prevented.

The vacuum chamber 210 is opened and then the transfer gripper 320 is moved to a position where the pallet P in which the vacuum-dried molded articles M are fixedly arranged And discharges it to the outside while the molded articles (M) after the hot air drying are put into the vacuum chamber 210 to realize a vacuum drying process.

In this embodiment, the cleaning liquid remaining in the vacuum chamber 210 is completely removed before the hot-air-dried molded articles M are put into the vacuum chamber 210, so that the vacuum drying process is more stably implemented .

To this end, in this embodiment, a cleaning nozzle 241 for discharging compressed air supplied through a compressor (not shown) to the inner wall of the housing 211 downward along the inner wall of the housing 211 is disposed.

8, the compressed air is discharged downward through the cleaning nozzle 241, and foreign matter or washing water adhered to the inner wall of the housing 211 by the compressed air flows to the inner wall of the vacuum chamber 210 after the vacuum drying And then discharged to the outside through a discharge port 210a formed in a lower portion of the vacuum chamber 210. [

Thus, the vacuum chamber 210 removes impurities or cleaning liquid from the inner wall through the compressed air injected downward through the cleaning nozzle to the inner wall, and then receives the hot air-dried molding M, A vacuum drying process is performed in which a cleaning liquid adhering to the surface of the substrate is vacuum dried.

1. Mold dryer
100. Hot air drying unit 110. First hot air drying room
111. Lift door 112. Lift member
120. Second Hot Air Drying Room
130. Hot Air 131. Hot Air Nozzle
200. Vacuum dryer 210. Vacuum chamber
210a. outlet
211. Hull 212. Cover
213. Cradle 213a. Electric motor
214. Movable member 215. Retractable guide
216. Lift member 217. Inlet terminal
220. Vacuum aspirator 221. Vacuum aspirator
230. Cooling and dehumidifier 231. Dehumidifier
240. Compressor 241. Cleaning nozzle
310. Conveying conveyor
320. Feed gripper 321. Movable member
322. A gripper member 322a,
323. Lift member

Claims (3)

A vacuum chamber for containing the molded product after the hot air drying is shielded from the outside;
A vacuum inhaler for evacuating air remaining in the vacuum chamber through a vacuum suction pipe to reduce the internal space of the vacuum chamber to form a vacuum state; And
A vacuum state is formed by the vacuum inhaler to evacuate the cleaning liquid on the surface of the molded product, and the dehumidified cooling air is supplied into the vacuum chamber through the air supply duct to remove the dehumidified cooling air from the inner space of the vacuum chamber And a cooling dehumidifier for forming an equalizing pressure,
The vacuum chamber includes an upper opening type enclosure and a lid for closing an upper portion of the enclosure, and a cradle for holding a pallet in which molded products are fixedly arranged is disposed inside the enclosure,
The moldings are placed in a floating state inside the vacuum chamber by a holder,
The cradle is provided with a lead-in terminal for supplying current to the pallet on which the molded articles are mounted,
Wherein a cleaning nozzle for discharging the compressed air downward along the inner wall of the housing is disposed on the inner wall of the housing. The vacuum sucker according to claim 1, wherein the vacuum sucker vacuum-sucks the air inside the vacuum chamber to form a vacuum state inside the vacuum chamber, and a vacuum drying process for removing the washing liquid contained in the vacuum chamber by vacuum evaporation And then,
The cooling and dehumidifying device sequentially performs an equal pressure forming step of supplying dehumidified cooling air into the vacuum chamber after completion of the vacuum drying step and forming an even pressure between the inside of the vacuum chamber and the atmosphere,
When the vacuum chamber is opened, the atmospheric air flows into the surface of the vacuum-dried molded article due to the pressure deviation between the inside of the vacuum chamber and the atmosphere, so that the moisture contained in the air directly reaches the surface of the molded article, Is prevented. delete

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