KR102560752B1 - Mold Device with Elevating Unit - Google Patents

Abstract

The present invention provides a preheating unit for performing a preheating process of heating a mold to a preheating temperature for a mold containing a molded object, a molding unit for performing a molding process of molding a molded object by heating to a molding temperature or pressurizing a mold, and a mold. A main chamber including a cooling unit performing a cooling process of cooling; a lifting unit that moves up and down inside the main chamber while supporting the mold when the mold is inserted or discharged; A molding apparatus including a cap covering the mold may be provided to maintain a sealed state when the mold is put into the main chamber by the lifting unit or discharged to the outside of the main chamber.

Description

Molding device with an elevating unit {Mold Device with Elevating Unit}

[0001] The present invention relates to a molding apparatus equipped with an elevating unit for inserting a mold into a main chamber of the molding apparatus and discharging it out of the main chamber.

A glass or lens having a curved portion may be used as a front cover, a rear cover, a lens for a camera, or the like of a portable terminal.

By putting an object to be molded into a mold and heating and pressing the mold, a glass or lens having a desired 3D shape can be molded.

The mold provided with the object to be molded may be introduced into the main chamber constituting the molding apparatus and may be molded while passing through a predetermined molding process.

In the main chamber for processing molds, a structure for inserting molds and discharging molds after a predetermined molding process needs to be simplified.

An object of the present invention is to provide a molding apparatus equipped with an elevating unit capable of inserting a mold into a main chamber and discharging it out of the main chamber in a state in which a mold can be airtightly maintained without a separate input or discharge chamber.

The present invention provides a preheating unit for performing a preheating process of heating a mold to a preheating temperature for a mold containing a molded object, a molding unit for performing a molding process of molding a molded object by heating to a molding temperature or pressurizing a mold, and a mold. A main chamber including a cooling unit performing a cooling process of cooling; a lifting unit that moves up and down inside the main chamber while supporting the mold when the mold is inserted or discharged; A molding apparatus including a cap covering the mold may be provided to maintain a sealed state when the mold is put into the main chamber by the lifting unit or discharged to the outside of the main chamber.

In this way, the present invention does not separately provide an input chamber and an ejection chamber, but when a mold for molding is put into the main chamber for performing the mold molding process, or when the molded mold is discharged, the lifting unit moves up and down. It can be put into the inside from the outside of the main chamber.

In the present invention, since the input chamber and the discharge chamber are not provided separately, the configuration of the main chamber can be simplified, and the process of inserting and ejecting the mold can be implemented quickly and simply without complicated paths.

In the present invention, an elevating unit is provided as an inputting and discharging means for inserting and ejecting the mold, and when inserting the mold, the elevating unit is raised so that the lifting unit is placed in the input hole formed in the main chamber from the inside of the main chamber. After placing the mold on the settling part, the mold can be introduced into the main chamber by lowering the lifting unit in a sealed state by covering the mold with a cap.

In addition, according to the present invention, the mold may be seated on a seating portion of an elevating unit provided as an ejection means for a mold that has undergone a predetermined molding process, and then lifted and discharged through the ejection hole of the main chamber. When the mold is discharged, the discharge hole is covered with a cap to maintain a sealed state in the main chamber.

1 is a schematic cross-sectional view of a molding apparatus according to an embodiment of the present invention.
2 is a view of a state before covering a mold with a cap in a molding apparatus according to an embodiment of the present invention.
FIG. 3 is a view of a state in which the mold is covered with a cap from FIG. 2 .
FIG. 4 is a view showing a state in which the lifting unit is lowered to insert the mold into the main chamber from FIG. 3 .
5 is a schematic plan view of a molding apparatus according to an embodiment of the present invention.

1 is a schematic cross-sectional view of a molding apparatus according to an embodiment of the present invention, and FIG. 2 is a view of a state before covering a mold with a cap in the molding apparatus according to an embodiment of the present invention.

1 and 2, the molding apparatus 10 of the present invention includes a lifting unit 100 that is lifted to place the mold M and insert and / or discharge it into the main main chamber 20, The elevating unit 100 may include an elevating support 110 entering and leaving the main chamber 20 and a seating portion 120 formed at an end of the elevating support 110 and supporting the mold M.

The mold M may mold the object to be molded into a cover glass, lens, or the like of a portable terminal. When the mold (M) is heated and pressurized, some or all of the object to be molded stored in the mold (M) may be molded into a curved surface.

The object to be molded may include a camera lens, glass having a curved surface, watch cover glass, automobile instrument panel glass, various instrument cover glass, sapphire, a light-transmitting plate, and a front cover and a back cover of a portable terminal. The object to be molded includes all cases in which a lens is molded from a lens, semi-solid or liquid glass, and the type of object to be molded is not a limitation of the present invention.

The mold M forming the curved portion of the object to be molded passes through the inside of the main chamber 20 and may be preheated, molded, or cooled. A preheating unit, a molding unit, and a cooling unit may be sequentially arranged from the inlet side of the main chamber 20 toward the outlet side of the main chamber 20 .

The preheating unit may preheat the mold M to a preheating temperature. The molding unit may heat the mold M to a molding temperature. The molding unit may mold the object to be molded by heating and pressurizing the mold (M). A cooling unit may be provided at a downstream side of the molding unit to gradually cool the mold (M) in which molding of the object to be molded is completed.

The lifting unit 100 of the present invention is provided on the upstream side of the preheating unit to insert the mold 10 into the main chamber 20, and discharges the mold 10 that has undergone a predetermined process to the outside of the main chamber 20. It may be provided on the downstream side of the cooling unit to do so.

The elevating support 110 constituting the elevating unit 100 may be formed in a rod or bar shape having a predetermined length, and the seating portion 120 is a plate shape capable of stably supporting the mold M. It can be formed, and can be entered and exited through the input hole 21 formed on one side of the main chamber 20.

Referring to FIG. 5 , the elevated seating unit 120 may be positioned at the same level as the input hole 21, and therefore, the mold M for input into the main chamber 20 is of the input hole 21. It is slidably moved by a transfer means (not shown) on one side and can be seated without any interference on the seating part 120 located in the input hole 21 .

A cap 200 may be provided on the outside of the input hole 21, and when the mold M is inserted from the outside to the inside of the main chamber 20, the cap 200 covers the mold M to form an airtight seal. state can be maintained.

In other words, the cap 200 may cover the mold M inserted into the main chamber 20 while being moved up and down by a separate lifting unit.

2 to 4, the mold M is slid on the upper surface of the main chamber 20 to be seated on the seating part 120 of the lifting unit 100, and then the cap 200 is lowered from the top. Cover the mold (M). In a state in which the mold M is covered by the cap 200 , the mold M may be inserted into the main chamber 20 by lowering the seat 120 .

The lifting support 110 can move up and down into the main chamber 20 while being moved up and down by a separate lifting unit.

Lifting means for lifting the lift support 110 and the cab 200 may be provided in various ways, such as a cylinder (pneumatic pressure, etc.), a linear movement mechanism, and the like.

At the end of the cap 200, a sealing member 210 may be provided to seal the inside of the cap 200 and the mold M seated on the seat 120 into or out of the main chamber 20. .

As another example, although not shown in the drawings, the seat portion 120 constituting the lifting unit 100 may include a stepped portion, and the stepped portion is caught by the input hole 21 and is not connected to the input hole 21. It may serve as a stopper so that the level of the teeth 120 is the same. Therefore, when the input hole 21 is caught by the stepped part, the upper end of the insert 120 and the input hole 21 may be set to the same level as each other.

Also, when the mold M is discharged, similarly to the input hole 21, a stepped portion may be provided on the seat so that the seat of the elevating unit for ejection of the mold M is located at the same level as the discharge hole.

The present invention can be performed through one main chamber 20 without providing a separate input chamber and discharge chamber when inputting and discharging into the main chamber 20 to mold the mold M, the main chamber When inserting and ejecting the mold (M) into (20), it is possible to insert and eject while maintaining a sealed state, and after inserting or ejecting, the input hole 21 of the main chamber 20 is closed to maintain a sealed state. can make it

In other words, when inserting or discharging the mold M into the main chamber 20, first, the inserting hole 21 or the ejection hole of the main chamber 20 is sealed with the seating part 120 of the lifting unit 100, respectively. , and in this state, when the mold M for molding is introduced, the seating part 120 descends while covered with the cap 200, and when the descent is completed, the main chamber for the molding process. When the mold (M) is out of the settling part 120 to be transported in (20), the settling part 120 in the lowered state is raised again to block the input hole 21, and then the cap 200 is inserted into the input hole 21 ) can be raised at a distance from

When the mold M is discharged, in a state where the cap 200 is previously covered on the discharge hole to maintain airtightness, the settling portion 120 blocking the discharge hole is lowered and the mold M after the molding process is secured. When the teeth 120 are seated and then raised to reach the discharge hole position, the mold M is placed outside the main chamber 20, and in this state, the cap 200 is raised and the mold M is collected. can

More specifically, when the mold M is placed on the seating part 120, the cap 200 descends and covers the mold M to maintain a sealed state, and in this state, the lifting unit 100 moves down. Through this, the mold M may be introduced into the main chamber 20 .

Since the elevating unit 100 is provided with an elevating support 110 having a predetermined length, and the elevating support 110 can perform an elevating operation by an elevating means (not shown) such as a cylinder, the elevating support 110 ) descends, the seating part 120 also descends into the main chamber 20 at the same time, and accordingly, the injection of the mold M into the main chamber 20 can be completed.

Since the inside of the main chamber 20 is equipped with a base member 22 capable of placing and transporting the mold M, the mold M is placed on the base member 22, and the molding process is performed by a transfer mechanism. (Preheating, molding, cooling process) can be transferred sequentially to perform.

The base member 22 has an accommodation groove 22a capable of accommodating the seating portion 120 of the elevating unit 100, and the mold M inserted into the main chamber 20 is a standby for performing the molding process ( standby) can serve as a member. The elevation support 110 of the elevation unit 100 may pass through the base member 22 and the main chamber 20 to be elevated.

Therefore, when the descending seat 120 is inserted into the receiving groove 22a, the mold M inserted into the main chamber 20 may be moved for performing the molding process.

While the injected mold M is transported from the base member 22, the molding process is performed. At this time, the set portion 120 in the receiving groove 22a of the base member 22 is raised to close the input hole 21. Then, the cap 200 that was covered can be raised so that the next mold (M) can be seated.

On the other hand, when the mold M that has completed the molding process is discharged through the discharge hole, the seating portion 120 of the elevating unit 100 provided on the side of the discharge hole is lowered to receive the mold M that has completed the molding process. The outside of the ball is covered with a cap 200 in advance to maintain an airtight state, and in this state, the settling part 120 is lowered while moving away from the discharge hole, and the mold (M) on which the molding process is completed on the lowered settling part 120 When it is seated and then raised again to reach the discharge hole, the mold (M) is located outside the main chamber 20 while being inside the cap 200. In this state, the cap 200 is lifted and separated from the mold M, and the mold M that has been molded can be collected.

A sealing member may be provided between the elevating support 110 and a portion penetrating the lower surface of the main chamber 20 to maintain airtightness in the main chamber 20 .

In FIG. 1, a block may be provided in the main chamber 20, for example, to perform a preheating process. The block may include an upper block 300 elevated from the top of the mold M, and a lower block 310 provided below the mold M and supporting the mold M.

More specifically, the preheating unit, the molding unit, and the cooling unit may include a lower block 310 installed on the bottom of the main chamber 20 . The lower block 310 may support the mold M and heat or cool the mold M.

The upper block 300 provided in the preheating unit is elevated relative to the main chamber 20 and may contact the mold M to perform a preheating function in a heat conduction manner. The upper block 300 provided in the cooling unit is elevated relative to the main chamber 20 and may contact the mold M to perform a cooling function in a heat conduction manner. The upper block 300 provided in the preheating unit or cooling unit may apply a pressing force to the mold M, but may come into contact with the mold M in an unloaded state in which its own weight is removed.

The upper block 300 and/or the lower block 310 may include a heater plate on which heaters 302 and 312 are mounted and which perform a heating function, and a cooling plate which circulates cooling water and performs a cooling function. A heat sink may be inserted to adjust the contact area between the heater plate and the cooling plate. Although a cooling plate may be provided on each lower block 310 , a common cooling plate facing all lower blocks 310 may be provided.

Meanwhile, according to the present invention, the mold M, which has undergone a predetermined molding process, can be discharged from the main chamber 20 without providing a separate discharge chamber. When the mold M is discharged, the injection hole 21 formed in the main chamber 20 is blocked and provided with the same structure as that of the elevating unit 100 that is moved up and down into the main chamber 20. The mold (M) that has undergone the molding process of can be external through the discharge hole formed in the main chamber (20).

According to the present invention, a lifting unit 100 for inserting a mold and a lifting unit 100 for ejecting a mold are provided as a means for inserting and discharging the mold M, respectively, so that a sealed state is always maintained during the inserting and discharging operation of the mold M. You can do it while maintaining.

10 ... molding device 20 ... main chamber
21 ... input hole 22 ... base member
22a ... receiving groove
100... elevating unit 110... elevating support
120... Mortgage Department
200... cap 210... sealing member
300... upper block 310... lower block
302,312... Heater M... Mold

Claims (9)

A preheating unit that performs a preheating process of heating the mold to a preheating temperature for the mold containing the object to be molded, a molding unit that performs a molding process of molding the object by heating it to a molding temperature or pressurizing the mold, and a cooling unit that cools the mold A main chamber including a cooling unit for performing a process;
a lifting unit that moves up and down inside the main chamber while supporting the mold when the mold is inserted or discharged;
a cap covering the mold to maintain a sealed state when the mold is put into the main chamber by the lifting unit or discharged to the outside of the main chamber; including,
The cap is a molding apparatus provided to be movable on the outside of the main chamber.
According to claim 1,
The lifting unit,
A molding device provided at an upstream side of a preheating unit of the main chamber to insert the mold into the main chamber.
According to claim 1,
The lifting unit,
A molding device provided on the downstream side of the cooling unit of the main chamber to discharge the mold out of the main chamber.
According to claim 1,
The lifting unit is provided for inputting or discharging the mold into the main chamber,
The lifting unit,
an elevating support having a predetermined length and elevating in the main chamber;
a seat provided at an end of the elevating support and seating the mold;
Molding device comprising a.
According to claim 1,
An input hole for inserting the mold is formed in the main chamber,
The elevating unit is provided with a seating portion disposed in the input hole,
When the mold is put into the main chamber,
Molding apparatus in which the mold is seated by sliding from one outer surface of the main chamber to the seating portion disposed in the input hole. According to claim 1,
An input hole is formed in the main chamber,
The elevating unit is provided with a seating portion disposed in the input hole,
When the mold is put into the main chamber,
The seating part is placed at the same level as the input hole formed in the main chamber to seat the mold and then descends to be inserted into the main chamber,
The settling part descends to insert the mold into the main chamber, moves it from the settling part to perform a molding process, and then rises to close the input hole,
The cap maintains a covered state so that the injection hole is not opened until the setter seats the mold in the injection hole, inserts it into the main chamber, and rises again to block the injection hole.
According to claim 1,
A discharge hole is formed in the main chamber,
The elevating unit is provided with a seating portion disposed in the discharge hole,
When the mold in the main chamber is discharged out of the main chamber,
The set part is moved to the same level as the discharge hole formed in the main chamber to elevate and discharge the mold;
The discharge hole is covered with a cap, and after the settling part seats the mold on which the molding process is completed, it rises to reach the discharge hole to discharge the mold out of the main chamber, and then the cap is moved away from the discharge hole. molding device.
According to claim 1,
The lifting unit,
a lift support that moves up and down in the main chamber;
a seating unit provided at an end of the elevating support and placed in an input hole formed in the main chamber to place a mold therein;
including,
When the mold is seated on the seating portion, the elevating support descends,
The molding apparatus of claim 1 , wherein a base member is provided in the main chamber so that the seating portion descends into the main chamber and is in a position for a molding process of a mold.
According to claim 1,
The cap is provided with a sealing member for sealing when facing the main chamber.