JP3462237B2 - Vacuum press with vacuum charging function - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum press device having a vacuum charging function, which can quickly bring a vacuum state into a vacuum kiln of a press device for pressing in a vacuum kiln.

[0002]

2. Description of the Related Art Generally, a printed wiring board having a multilayer structure is
Epoxy resin for prepreg after impregnating glass fiber cloth with epoxy resin, etc., and stacking prepreg and copper foil for B stage, copper clad board for outer layer, copper clad board for inner layer, etc., and then applying heat and pressure And the like are melted and softened, and then the resin is completely cured to be integrated. However, when using a general hot press machine, the air remaining in the glass fiber cloth and solvent gas generated when the solvent such as the epoxy resin is vaporized remain inside, so-called void,
In the subsequent process, defects such as "blister" and "peeling" are likely to occur. For this reason, the conventional vacuum pressing device used to eliminate the occurrence of such a defect has a pressing device for pressing the molding target therein and an opening for inserting and removing the molding target. It has a vacuum kiln and a door portion that is openably and closably attached to close the opening. A vacuum pump is connected to the vacuum kiln via a pressure resistant hose. The conventional vacuum press device configured as described above seals the vacuum kiln with the door portion, and sets a predetermined low pressure state (vacuum state) capable of performing an appropriate press in the vacuum kiln with the vacuum pump, After that, the press device installed in the vacuum kiln operates to perform pressing.

[0003]

However, in the conventional structure, it takes a considerable amount of time for the inside of the vacuum kiln to reach a predetermined low pressure state (vacuum state) in which an appropriate press can be performed. There is a large difference in the amount of pressing per unit time between those that include a vacuum process that brings the inside of the kiln to a predetermined low pressure state (vacuum state) and those that do not. In addition, when the press machine installed in the vacuum kiln is a hot press machine, the inside of the vacuum kiln is in a predetermined low pressure state (vacuum state).
Another problem arises because it takes some time to reach. That is, if the material to be molded is a substance that easily changes due to heat, the molded product is softened by the heat generated by the hot press machine before the inside of the vacuum kiln reaches a predetermined low pressure state (vacuum state), and the expected press Processing becomes impossible.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and the present invention shortens the time until the inside of the vacuum kiln reaches a predetermined low pressure state (vacuum state) to reduce the unit time. The amount of pressing per unit is increased, and the pressing time of the hot press machine is shortened due to the shortening of the time required for the inside of the vacuum kiln to reach a predetermined internal pressure (vacuum state). An object is to provide a vacuum press device having a vacuum charge function that can be processed.

[0005]

In order to solve the above-mentioned problems and to achieve the object, a vacuum pressing apparatus having a vacuum charging function according to the present invention is a vacuum kiln having an opening for taking in and out a molding target. , A press means installed in the vacuum kiln, a door capable of sealing the vacuum kiln by opening and closing the opening, a vacuum pump for making the inside of the vacuum kiln a vacuum, and the vacuum A vacuum charge tank which is brought into a vacuum state by a pump, a first passage connecting the vacuum charge tank and the vacuum pump, a second passage connecting the vacuum charge tank and the vacuum kiln, and a second passage And a second passage opening / closing valve provided in the second passage.

Further, the vacuum pressing apparatus having the vacuum charging function according to the present invention is characterized by comprising position detecting means for detecting the position of the door. Further, in the vacuum press device having a vacuum charging function according to the present invention, the vacuum kiln and the vacuum pump are:
It is characterized in that they are connected by a third passage. Further, in the vacuum press device having the vacuum charging function according to the present invention, a third passage opening / closing valve is provided in the third passage. Also,
In a vacuum press device having a vacuum charging function according to the present invention, a fourth passage is connected to the vacuum kiln, and a vacuum release valve is provided in the fourth passage,
This vacuum release valve is characterized in that it is opened only when the vacuum inside the vacuum kiln is released, and is closed at other times. Further, in the vacuum press device having a vacuum charging function according to the present invention, a first passage opening / closing valve is provided in the first passage. Further, in the vacuum press device having a vacuum charge function according to the present invention, the vacuum charge tank is measured by a first barometer for measuring the atmospheric pressure in the vacuum charge tank and the measured value of the first barometer. An atmospheric pressure determining means for determining whether or not the inside has reached a predetermined atmospheric pressure, and when the atmospheric pressure determining means determines that the inside of the vacuum charge tank has reached a predetermined atmospheric pressure, the second passage opening / closing valve And a valve control device that operates so as to open. Further, in the vacuum press device having the vacuum charging function according to the present invention, the second barometer for measuring the atmospheric pressure in the vacuum kiln, and the measurement value of the second barometer are used to measure the vacuum kiln. The atmospheric pressure determining means for determining whether or not the value has reached a predetermined atmospheric pressure, and when the atmospheric pressure determining means determines that the inside of the vacuum kiln has reached a predetermined atmospheric pressure, the pressing means presses the press. It is characterized by being executed.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The construction of an embodiment of the vacuum pressing apparatus according to the present invention will be described below with reference to the accompanying drawings.

The vacuum kiln 10 constituting the vacuum press apparatus 2 having the vacuum charging function shown in FIG. 1 has its internal pressure controlled by a vacuum generating unit 12 having a vacuum charge tank 14 and a vacuum pump P. A predetermined low pressure state (vacuum state) is established, and the low pressure state can be maintained. This vacuum kiln 10 has, as shown in the drawing,
A multi-step pressing device 16 as a pressing means is arranged, and an opening 20 is formed so that a molding target can be pressed by the multi-step pressing device 16 and can be taken out after pressing. There is.

The opening 20 is opened / closed by a door 22 which is moved by being guided by a guide rail 24, and the opening 20 is closed by the door 22 to seal the vacuum kiln 10 together with the door 22. The position is detected by a sensor (not shown) which is a position detecting means. When it is determined that the door 22 closes the opening 20 by this sensor, a signal for controlling the valve is output to a valve control device described later. The door 22 is
A hydraulic cylinder 28, which is a driving means, is configured to move by expanding and contracting a piston rod. Therefore, the vacuum generation unit 12 described later can maintain the atmospheric pressure in the vacuum kiln 10 in a predetermined low pressure state (vacuum state) for a predetermined time. Further, the vacuum kiln 10 is provided with a press signal generator (not shown) that outputs a press start signal for informing the press start of the multi-stage press device 16 and a press end signal for informing the press end. The valve control device described later is driven.

Next, referring to FIG. 1, the structure and operation of the vacuum generating unit 12 that operates to bring the inside of the vacuum kiln 10 having the above-described structure into a predetermined low pressure state (vacuum state) capable of performing an appropriate pressing will be described with reference to FIG. explain.

The structure of the vacuum generating unit 12 is shown by a circuit diagram surrounded by a broken line in the drawing. The vacuum generating unit 12 includes a vacuum charge tank 14 capable of maintaining a predetermined low pressure state (vacuum state) inside, and a vacuum pump P that operates to bring a predetermined space into a predetermined low pressure state (vacuum state). On-off valves B1, B2, B3, B4, and a pressure-resistant hose that connects the respective members of the vacuum unit 12 as shown in the drawing.

The pressure-resistant hose includes a passage T1 as a first passage, a passage T2 as a second passage, a passage T3 as a third passage, and a passage T4 as a fourth passage. The passage T1 is a passage that connects the vacuum charge tank 14 and the vacuum pump P, and an opening / closing valve B1 as a first passage opening / closing valve is installed in this passage. The passage T2 is a passage that connects the vacuum charge tank 14 and the vacuum kiln 10, and an opening / closing valve B2 as a second passage opening / closing valve is installed in this passage. Passage T3
Is a passage connecting the vacuum kiln 10 and the vacuum pump P, and an opening / closing valve B3 as a third passage opening / closing valve is installed in this passage. The passage T4 is connected to the vacuum kiln 10, and an opening / closing valve B4 as a vacuum release valve is installed in the passage T4.

Further, inside the vacuum kiln 10 and inside the vacuum charge tank 14, barometers (not shown) for measuring the internal pressure are respectively provided, and the vacuum generating unit 12 is further provided with respective barometers. An atmospheric pressure discriminating device (not shown) is provided as an atmospheric pressure discriminating device for discriminating whether or not the inside of the vacuum kiln 10 and the vacuum charge tank 14 has reached a predetermined atmospheric pressure according to the measured value of When it is determined that the inside of the kiln 10 and the inside of the vacuum charge tank 14 have reached predetermined atmospheric pressures, respectively, as will be described later, a valve control signal generator (not shown) that outputs a signal for opening and closing each valve, and the output signal Is provided with a valve control device (not shown) that opens and closes each valve.

The opening / closing valve B1 acts to bring the inside of the vacuum charge tank 14 closer to a low pressure state (vacuum state) by opening the opening / closing valve B1. When the opening / closing valve B1 is closed, the driving condition of the vacuum pump P is increased. However, the atmospheric pressure in the vacuum charge tank 14 does not change. Further, the opening / closing valve B2 opens the valve so that the vacuum charge tank 14 is a kind of vacuum due to the vacuum charged in the vacuum charge tank 14 (that is, the inside of the vacuum charge tank is maintained at a low pressure state). Acting like a pump, it acts so as to bring the inside of the vacuum kiln 10 to a low pressure state (vacuum state). When the opening / closing valve B2 is closed and the vacuum pump P is driven, the vacuum charge tank 1
4 is to bring the low pressure state (vacuum state) close again. Further, the opening / closing valve B3 acts so as to bring the inside of the vacuum kiln 10 to a predetermined low pressure state (vacuum state) by the vacuum pump P by opening the opening / closing valve B3.
When is closed, the atmospheric pressure in the vacuum kiln 10 does not change regardless of the driving condition of the vacuum pump P. Further, the opening / closing valve B4 acts so as to release the low pressure state (vacuum state) in the vacuum kiln 10 by opening the opening / closing valve B4, that is, to bring the inside of the vacuum kiln 10 to a pressure substantially equal to the atmospheric pressure.
And the vacuum pump P is driven, the vacuum charge tank 14 and the vacuum kiln 10 are brought close to a low pressure state (vacuum state).

The operation of the vacuum press device 2 having the vacuum charging function having the above-described structure will be described with reference to FIGS. 2 and 3.

First, in FIG. 2, in step S1 (hereinafter, steps are omitted and simply referred to as S1 and the like), the vacuum pump P is driven to bring the inside of the vacuum charge tank 14 to a predetermined low pressure state (low pressure value Pa). deep. The operation for setting the predetermined low pressure value Pa in the vacuum charge tank 14 is performed in advance by using a timer before actually performing vacuum pressing, or while the molding target is installed in the multi-stage press device 16. Just go. At this time, the states of the on-off valves in the vacuum generating unit 12 are as shown in the figure, the on-off valve B1 is open, the on-off valve B2 is closed, the on-off valve B3 is closed, and the on-off valve B is closed.
4 is closed. In each of the open / close valves, the vacuum pump P is operated so that only the inside of the vacuum charge tank 14 is set to a predetermined low pressure state (low pressure value Pa) (that is, the vacuum charge tank 14 is charged with vacuum). Will be done). In step S1, when the inside of the vacuum charge tank 14 reaches a predetermined low pressure value Pa, the opening / closing valve B1 is closed and the vacuum pump P is closed.
When the pressure in the vacuum charge tank moves to a higher pressure side than a predetermined low pressure value Pa with the lapse of time, the vacuum pump P is driven again, the opening / closing valve B1 is opened, and the inside of the vacuum charge tank 14 is restarted. The pressure may be reduced. The pressure inside the vacuum charge tank is detected by a barometer (not shown).

Next, in S2, it is judged by a barometer (not shown) whether or not the inside of the vacuum charge tank 14 has reached a predetermined low pressure value Pa. When it is determined that the predetermined low pressure value Pa has not been reached, the state of each on-off valve remains at S1 and the vacuum pump is continuously driven to bring the vacuum charge tank 14 to the predetermined low pressure value Pa. In S3, S2
When it is determined that the predetermined low pressure value Pa has been reached, a sensor (not shown) confirms that the door 20 is in a position for sealing the vacuum kiln 10, and then a valve control signal (not shown) for opening the opening / closing valve B2. The generator outputs an initial vacuum signal. When the valve control device (not shown) is activated by the initial vacuum signal to open the on-off valve B2,
The vacuum charged in the vacuum charge tank 14 causes the vacuum charge tank 14 to act like a vacuum pump and to bring the inside of the vacuum kiln 10 into a low pressure state (vacuum state) at once.

The change in atmospheric pressure in the vacuum kiln 10 at this time is shown in FIG.
In the part A of the solid line graph, the vacuum charge tank 1
The change in atmospheric pressure within 4 is represented by the E portion of the dashed-dotted line graph. The solid line graph shows the relationship between atmospheric pressure and time in the vacuum kiln of a vacuum press device having a vacuum charge tank, and the dashed-dotted line graph shows the relationship between atmospheric pressure and time in the vacuum charge tank. Is. Further, the broken line graph represents the relationship between the atmospheric pressure in the vacuum kiln and the time in a vacuum press device having no vacuum charge tank.

At S4, it is judged by a barometer whether or not the inside of the vacuum kiln 10 has reached a predetermined low pressure value Pb at S3. When it is determined that the predetermined low pressure value Pb has not been reached,
The state of each open / close valve remains at S3, and it is waited until the inside of the vacuum kiln 10 reaches a predetermined low pressure value Pb. That is, the process proceeds to No in S4. In S5, when it is determined in S4 that the predetermined low pressure value Pb has been reached, the valve control signal generator outputs a press signal for closing the opening / closing valves B1 and B2 and opening the opening / closing valve B3. By this press signal, the valve control device causes the on-off valve B1 and the on-off valve B
When 2 is closed and the opening / closing valve B3 is opened, the vacuum pump P is driven to bring the inside of the vacuum kiln 10 from the current internal pressure Pb to a predetermined low pressure value Pc at which appropriate pressing can be performed. . The relationship between the atmospheric pressure in the vacuum kiln 10 and time at this time is represented by the portion B of the solid line graph in FIG.

In S6, it is judged whether or not the inside of the vacuum kiln 10 has reached a predetermined low pressure value Pc suitable for pressing. When it is determined that the predetermined low pressure value Pc has not been reached, the state of each on-off valve remains at S5, and the vacuum pump P is driven until the inside of the vacuum kiln 10 reaches the predetermined low pressure value Pc. In S7, when it is determined in S6 that the predetermined low pressure value Pc is reached,
The multi-stage press device 16 installed in the vacuum kiln 10 press-molds the object. When this press molding is executed, a press signal generator (not shown) outputs a press start signal, and the valve control device opens the open / close valve B1 and closes the open / close valve B3 by the press start signal. Works like. Then, while the pressing is being performed, the inside of the vacuum charge tank 14 is brought to a low pressure state (vacuum state) again by the vacuum pump.

Here, the vacuum kiln 10 is sealed by the door 22, but the low pressure state inside this may gradually approach a high pressure value from a predetermined low pressure value Pc suitable for pressing with the passage of time. Therefore, while the press is being executed, the atmospheric pressure in the vacuum kiln 10 is measured by a barometer (not shown), and this atmospheric pressure is a predetermined low pressure value Pc suitable for the press.
When it is determined that the pressure becomes higher or is about to become higher, a signal for closing the opening / closing valve B1 and opening the opening / closing valve B3 in order to maintain the inside of the vacuum kiln 10 at a predetermined low pressure value Pc is a valve. It is output by the control signal generator. As a result, the valve control device operates to close the opening / closing valve B1 and open the opening / closing valve B3, and the vacuum kiln 10
The inside is again brought close to a predetermined low pressure value Pc suitable for pressing.

In this way, when the inside of the vacuum kiln 10 reaches a predetermined low pressure value Pc suitable for pressing, the opening / closing valve B1 is opened again and the opening / closing valve B3 is closed, and the inside of the vacuum charge tank 14 continues to have a predetermined low pressure value. It can approach Pa. Since this operation is repeated while the pressing is performed, that is, during the portion C of the solid line graph of FIG. 3, the inside of the vacuum kiln 10 is always maintained at the predetermined low pressure value Pc suitable for the pressing.

Next, when the pressing is completed, it is necessary to release the low pressure state in the vacuum kiln 10 in order to take out the pressed object to be molded. In S8, in order to release the low pressure state in the vacuum kiln 10, the valve control device opens the open / close valve B4 and closes the open / close valve B3 by the press end signal output by the press signal generator when the press ends. As a result, only the low pressure state in the vacuum kiln 10 is released, and the internal pressure becomes substantially equal to the atmospheric pressure. The change in atmospheric pressure in the vacuum kiln 10 at this time is represented by the portion D of the solid line graph in FIG. After that, when pressing is performed again, the process returns to S2, and the same operation is repeated thereafter.

Incidentally, in FIG. 3, the portion A'in the broken line graph is
With a vacuum press device that does not have a vacuum charge tank,
The time until the inside of the vacuum kiln reaches a predetermined low pressure value Pc suitable for the press, B'part represents the press time, and C'part releases the low pressure state in the vacuum kiln. It represents the pressure change in the vacuum kiln at that time.

As described above, the time required for the inside of the vacuum kiln 10 to reach the predetermined low pressure value Pc suitable for pressing is T1 hour as shown by the solid line in FIG. 3 in the vacuum press device having the vacuum charging function. On the other hand, on the other hand, in a vacuum press device without a vacuum charge tank, it is T2 hours as shown by the broken line in FIG. When the difference T0 (that is, T2-T1) was actually measured, it was about 5 minutes. That is, with the vacuum press device having the vacuum charging function, it is possible to reach the predetermined low pressure value Pc in the vacuum kiln 10 approximately 5 minutes earlier than with the conventional vacuum press device. Therefore, even when the heating press device is installed in the vacuum kiln 10, the pressing time can be shortened, so that the pressing operation can be completed before the material to be molded is softened by heat.

Needless to say, the present invention is not limited to the configuration of the first embodiment described above, and can be variously modified without departing from the scope of the present invention.

For example, the opening 20 has a guide rail 24.
Although it has been described that the door 22 is opened and closed by the guide 22, the present invention is not limited to such a configuration, and may be, for example, a double door with a double door. Anything can be used as long as it can be closed and the vacuum kiln 10 can be sealed.

Each on-off valve constituting the vacuum unit 12 is a valve control device depending on the atmospheric pressure conditions in the vacuum kiln 10 and the charge tank, or depending on whether the multi-stage press device 16 starts or finishes pressing. Although it has been described that it is opened and closed, the present invention is not limited to such a configuration, and a person checks the atmospheric pressure inside the vacuum kiln 10 and the charge tank 14, and the respective atmospheric pressures are in a predetermined atmospheric pressure state. It is needless to say that the same effect can be achieved by manually operating each on-off valve after confirming that, or after confirming the start and end of pressing.

Further, although it has been explained that the respective members constituting the vacuum unit 12 are connected by the pressure-resistant hoses as shown in FIG. 1, the present invention is not limited to such a constitution and, for example, high pressure is possible. It may be a pipe made of metal or the like so as to withstand the above.

Further, although the pressing device installed in the vacuum kiln 10 is described as the multi-stage pressing device 16, the present invention is not limited to such a constitution, and for example, a heating pressing device and a cooling pressing device. It may be a continuous vacuum press device having a and other press devices.

Although the door 22 has been described as being moved by the hydraulic cylinder 28, the present invention is not limited to such a structure, but may be structured so as to be moved by a driving means such as a motor. You can do it.

As described above in detail, according to the first aspect of the present invention, the vacuum pressing apparatus according to the present invention has a vacuum kiln having an opening for taking in and out a molding target, and the inside of this vacuum kiln. A press means to be installed, and a door capable of sealing the vacuum kiln by attaching the opening so that the opening can be opened and closed,
A vacuum pump for evacuating the inside of the vacuum kiln, a vacuum charge tank which is brought into a vacuum state by the vacuum pump, a first passage connecting the vacuum charge tank and the vacuum pump, and the vacuum charge tank And a second passage for connecting the vacuum kiln and the second kiln, and a second passage opening / closing valve provided in the second passage.

Further, the vacuum pressing apparatus having the vacuum charging function according to the present invention is characterized by comprising position detecting means for detecting the position of the door. Further, in the vacuum press device having a vacuum charging function according to the present invention, the vacuum kiln and the vacuum pump are:
It is characterized in that they are connected by a third passage. Further, in the vacuum press device having the vacuum charging function according to the present invention, a third passage opening / closing valve is provided in the third passage. Also,
In a vacuum press device having a vacuum charging function according to the present invention, a fourth passage is connected to the vacuum kiln, and a vacuum release valve is provided in the fourth passage,
This vacuum release valve is characterized in that it is opened only when the vacuum inside the vacuum kiln is released, and is closed at other times. Further, in the vacuum press device having a vacuum charging function according to the present invention, a first passage opening / closing valve is provided in the first passage. Further, in the vacuum press device having a vacuum charge function according to the present invention, the vacuum charge tank is measured by a first barometer for measuring the atmospheric pressure in the vacuum charge tank and the measured value of the first barometer. An atmospheric pressure determining means for determining whether or not the inside has reached a predetermined atmospheric pressure, and when the atmospheric pressure determining means determines that the inside of the vacuum charge tank has reached a predetermined atmospheric pressure, the second passage opening / closing valve And a valve control device that operates so as to open. Further, in the vacuum press device having the vacuum charging function according to the present invention, the second barometer for measuring the atmospheric pressure in the vacuum kiln, and the measurement value of the second barometer are used to measure the vacuum kiln. The atmospheric pressure determining means for determining whether or not the value has reached a predetermined atmospheric pressure, and when the atmospheric pressure determining means determines that the inside of the vacuum kiln has reached a predetermined atmospheric pressure, the pressing means presses the press. It is characterized by being executed.

Therefore, according to the present invention, the time required for the inside of the vacuum kiln to reach a predetermined low pressure state (vacuum state) is shortened, so that the pressing amount per unit time is improved and the inside of the vacuum kiln is predetermined. By shortening the press time of the hot press machine with shortening the time to reach the low pressure state (vacuum state) of
A vacuum press device having a vacuum charge function that can press a molded object without softening it.

[Brief description of drawings]

FIG. 1 is an overall view showing the configuration of an embodiment of a vacuum press device having a vacuum charging function according to the present invention.

FIG. 2 is a flow chart showing the operation of the configuration of an embodiment of a vacuum press device having a vacuum charging function according to the present invention.

FIG. 3 is a diagram showing a relation between atmospheric pressure and time in a vacuum kiln, a relation between atmospheric pressure and time in a vacuum charge tank, and a vacuum charge function according to an embodiment of a vacuum press device having a vacuum charge function according to the present invention. It is a graph which shows the relationship between the atmospheric pressure and time in a vacuum kiln by the vacuum press device which does not have.

[Explanation of symbols]

2 ... Vacuum press device having a vacuum charging function 10 ... vacuum kiln 12 ... Vacuum generation unit 14 ... Vacuum charge tank B1, B2, B3, B4 ... Open / close valve P ... Vacuum pump

Claims (5)

(57) [Claims] 1. A vacuum kiln having an opening for loading and unloading an object to be molded, press means installed in this vacuum kiln, and the opening so that the opening can be opened and closed, the vacuum kiln can be sealed. A door, a vacuum pump for evacuating the inside of the vacuum kiln, a vacuum charge tank that is brought into a vacuum state by the vacuum pump, a first passage connecting the vacuum charge tank and the vacuum pump, Second connecting the vacuum charge tank and the vacuum kiln
And a second passage opening / closing valve provided in the second passage, and position detecting means for detecting the position of the door. The vacuum kiln and the vacuum pump are provided in a third passage. A vacuum press device, which is connected and is provided with a third passage opening / closing valve in the third passage. 2. A fourth passage is connected to the vacuum kiln, and a vacuum release valve is provided in the fourth passage,
2. The vacuum press device having a vacuum charging function according to claim 1, wherein the vacuum release valve is opened only when the vacuum inside the vacuum kiln is released, and is closed at other times. 3. The vacuum press device having a vacuum charge function according to claim 2, wherein a first passage opening / closing valve is provided in the first passage. 4. A first barometer for measuring the atmospheric pressure in the vacuum charge tank, and whether or not the inside of the vacuum charge tank has reached a predetermined atmospheric pressure based on a measurement value of the first barometer. And a valve control device which operates to open the second passage opening / closing valve when the atmospheric pressure determining means determines that the inside of the vacuum charge tank has reached a predetermined atmospheric pressure. The vacuum pressing apparatus having a vacuum charging function according to claim 3, further comprising: 5. A second barometer for measuring the atmospheric pressure in the vacuum kiln, and whether or not the measured value of the vacuum kiln has reached a predetermined atmospheric pressure based on the measured value of the second barometer. 5. The atmospheric pressure determining means for making a determination, wherein when the atmospheric pressure determining means determines that the inside of the vacuum kiln has reached a predetermined atmospheric pressure, the pressing means executes pressing. A vacuum press device having a vacuum charging function as described in 1.