KR100523836B1 - Pneumatic dehumid machine and its control method - Google Patents

Abstract

The present invention relates to a vacuum dehumidifying apparatus including a gas draining hopper which performs drying and degassing at the same time, and more particularly, a vacuum pump for drying the moisture of the raw material contained in the gas draining hopper (10). By removing the high temperature gas inherent in the feed screw of the injection molding machine using heat 30 to radiate heat from the cylinder and removing moisture from the raw material, the heater used in the conventional dehumidifying dryer is not used. Energy saving, and the vacuum pump 30 can be carried out at the same time drying and gas in the screw cylinder to improve the gas draining efficiency, as well as to reduce the gas working time and drying the material at the same time gas draining The present invention relates to a vacuum dehumidifying apparatus without a heater including a hopper and a control method thereof, and to a structure for achieving the object of the invention. Is composed of a raw material supply device 70 for supplying a synthetic resin raw material and a collector 60 for loading the synthetic resin raw material through the raw material supply device 70, and includes a conveying screw unit 90 containing gas In the injection molding machine 80,

It is connected to the outlet pipe 90a of the transfer screw unit 90, and simultaneously removes the moisture drying contained in the synthetic resin raw material introduced from the collector 60 and the hot gas contained in the transfer screw unit 90 at the same time. The gas draining hopper 10 and the cylinder screw is provided on the outer side of the transfer screw unit 90, the cylinder heat dissipation plate 100 for supplying hot gas to the drying heater 14 of the gas draining hopper 10, The first filter 20, the second filter 40 for collecting the foreign matter of the gas generated in the gas draining hopper 10, the vacuum pump 30 for extracting the gas by vacuum, and the gas draining It characterized in that the control unit 50 for controlling the state of the synthetic resin raw material in the chamber 10, the temperature by using the vacuum pressure by the operation of the vacuum pump 30, through the configuration used in a conventional dehumidifying dryer Do not use heater to do energy Vacuum drying on the upper part of the screw using persimmon and cylinder heat, and in particular, the vacuum pump 30 can perform drying and gas in the screw cylinder at the same time to improve the gas draining efficiency and shorten the working time. This has the effect of improving productivity.

Description

Heaterless vacuum dehumidifier including drying and degassing hopper and control method thereof {Pneumatic dehumid machine and Its control method}

The present invention relates to a vacuum dehumidifying apparatus including a gas draining hopper which performs drying and degassing at the same time, and more particularly, a vacuum pump for drying the moisture of the raw material contained in the gas draining hopper (10). By removing the high temperature gas inherent in the feed screw of the injection molding machine using heat 30 to radiate heat from the cylinder and removing moisture from the raw material, the heater used in the conventional dehumidifying dryer is not used. Energy saving, and the vacuum pump 30 can perform the drying and gas in the screw cylinder at the same time to improve the gas draining efficiency, as well as to reduce the working time of the raw material moisture drying and gas draining at the same time A heater-less vacuum dehumidifier including a hopper and a control method thereof.

In the general injection molding machine, a method of putting synthetic resin raw materials into various molding machines and drying them is disclosed in the description of the detailed description of Korean Laid-Open Publication No. 2004-0081611 (September 22, 2004). The present invention relates to a method for dehumidifying and drying a synthetic resin raw material which can improve the quality of a final molded product by sufficiently drying the synthetic resin raw material before inputting it to various molding machines. The present invention relates to a conventional hot air drying method for processing synthetic resin. A method of drying a synthetic resin material by drying a vacuum drying method or a combination thereof, the method comprising: a). Instantaneously changing the pressure in the hopper filled with the synthetic resin raw material, thereby separating the surface of the synthetic resin raw material in the hopper and water contained therein from the synthetic resin raw material; b). It is described that it comprises a; step of instantaneously discharging the water separated from the synthetic resin raw material back to the outside of the hopper, bar is not described a specific configuration and control method for dehumidification drying of the synthetic resin raw material There is a problem.

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Accordingly, a main object of the present invention relates to a heater-less vacuum dehumidifying apparatus including a gas draining hopper for simultaneously drying the raw material and degassing by the vacuum pump 30, wherein the moisture of the raw material loaded in the gas draining hopper By using the vacuum pump 30 to remove the gas inherent in the transfer screw portion of the injection molding machine to remove the moisture of the raw material using the heat radiation of the cylinder, do not use the heater used in the conventional dehumidifying dryer Therefore, it is possible to simultaneously perform drying and gas in the screw cylinder by the energy saving and the vacuum pump 30, thereby improving the gas draining efficiency as well as shortening the working time as its problem.

In order to achieve the above object, Figure 1 of the present invention is a view showing a heater-free vacuum dehumidification apparatus including a gas draining hopper for simultaneously performing the drying and degassing of the present invention, Figure 2a at the same time drying and degassing FIG. 2B is a view showing a side view of the gas bleeding hopper to perform drying and degassing at the same time. FIG. 2C is a view showing the gate portion of FIG. 2A in detail. FIG. 2C is a cross-sectional view of the gate part, and FIG. 3 is a flowchart showing a first embodiment of a control method for directly transporting a raw material of a vacuum dehumidifier without a heater, and FIG. 4 is a control for transporting from the outside of a vacuum dehumidifier without a heater. A flowchart showing a second embodiment of the method is shown.

In order to achieve the above object based on FIG. 1, the present invention includes a raw material supply device 70 for supplying a synthetic resin raw material and a collector 60 for loading the synthetic resin raw material through the raw material supply device 70. In the injection molding machine (80) comprising a conveying screw portion (90) containing gas,

It is connected to the outlet pipe 90a of the transfer screw unit 90, and simultaneously removes the moisture drying contained in the synthetic resin raw material introduced from the collector 60 and the hot gas contained in the transfer screw unit 90 at the same time. The gas draining hopper 10 and the cylinder screw is provided on the outer side of the transfer screw unit 90, the cylinder heat dissipation plate 100 for supplying hot gas to the drying heater 14 of the gas draining hopper 10, The first filter 20, the second filter 40 for collecting the foreign matter of the gas generated in the gas draining hopper 10, the vacuum pump 30 for extracting the gas by vacuum, and the gas draining The control device 50 for controlling the state of the synthetic resin raw material in the chamber 10 and controlling the temperature by using the vacuum pressure by the operation of the vacuum pump 30.

More specifically, as shown in FIGS. 2A to 2D, the gas hopper 10 is connected to the cylinder rod 11b of the cylinder 11c by supplying or blocking raw materials in the collector 60. A gate portion 11 for opening or closing the gate valve 11d having the airtight O-ring 11e embedded therein by the gate opening and closing plate 11a;

The upper end portion 12a and the lower end portion 12b of the gate portion 11 and the raw material moisture removing portion 13 are fastened by the clamp parol 12c, and the upper end portion 12a is pivoted by the rotary hinge 12d. Supply unit 12,

A glass tube 13a for loading raw materials, a gas exhaust port 13b for extracting gas from the upper end of the glass tube 13a, an upper fixing stopper 13c supported by the glass tube 13a, and a raw material confirmation sensor for confirming the input of raw materials ( 13d1 and 13d2, and a heating tube 13e and a heating tube socket 13f that are preheated in the glass tube 13a are installed, and upper and lower flanges supporting the upper end, the stop part, and the lower end of the glass tube 13a, respectively. A raw material moisture removing unit 13 having a 13g1, 13g2 and a flange bracket 13h;

Drying heater unit including a drying heater 14a for preheating into the glass tube 13a of the raw material moisture removing unit 13, a temperature measuring device 14b for measuring the preheating temperature, and an air inlet valve 14c for introducing air ( 14) and,

 It characterized in that the discharge portion 15 including a connecting flange (15c) for connecting the dried raw material to the transfer screw unit 90, and a vacuum exhaust port (15b) and the discharge hopper (15a).

In the gas releasing hopper 10 for drying the synthetic resin raw material and extracting the gas inherent in the transfer screw portion 90 of the injection molding machine 80,

Is connected to the outlet pipe (90a) of the transfer screw unit 90, the gas inherent in the transfer screw unit 90 is withdrawn, and the cylinder heat sink 100 through the gas of the transfer screw unit 90 through Simultaneously withdraw the drying heater portion 14 of the gas drain hopper 10.

More specifically, the gas draining hopper 10 is an airtight O-ring 11e by a gate opening and closing plate 11a for supplying or blocking raw materials in the collector 60 to the cylinder rod 11b of the cylinder 11c. A gate portion 11 for opening or closing the gate valve 11d in which is embedded;

The upper end portion 12a and the lower end portion 12b of the gate portion 11 and the raw material moisture removing portion 13 are fastened by the clamp parol 12c, and the upper end portion 12a is pivoted by the rotary hinge 12d. Supply unit 12,

Glass tube 13a for loading the raw material, gas exhaust port 13b for extracting gas from the upper end of the glass tube 13a, upper fixing stopper 13c for supporting the glass tube, and raw material confirmation sensors 13d1 and 13d2 for checking the input of the raw material. ), A heating tube 13e and a heating tube socket 13f, which are preheated in the glass tube 13a, are installed, and the upper and lower flanges 13g1, which respectively support an upper end, a stop part, and a lower end of the glass tube 13a. 13g2) and the raw material moisture removing unit 13 having a flange bracket 13h,

Drying heater unit including a drying heater 14a for preheating into the glass tube 13a of the raw material moisture removing unit 13, a temperature measuring device 14b for measuring the preheating temperature, and an air inlet valve 14c for introducing air ( 14) and,

It characterized in that the discharge portion 15 including a connecting flange (15c) for connecting the dried raw material to the transfer screw unit 90, and a vacuum exhaust port (15b) and the discharge hopper (15a).

In addition, as shown in FIG. 3, in the first embodiment, the present invention provides a raw material supply device 70 for supplying a synthetic resin raw material and a collector 60 for loading the synthetic resin raw material through the raw material supply apparatus 70. In the control method of the vacuum dehumidification apparatus by the gas inherent in the transfer screw unit 90 of the injection molding machine 80, the step of turning on the operation switch of the control device 50 (S10), Detecting the absence of the raw material in the hopper 10 (S20), the operation of the vacuum release solenoid valve 30a on the control device 50 and the step of turning off the vacuum pump (30) (30) and Opening the gate opening and closing plate (11a) of the gate portion 11 (S40), the step of supplying the raw material in the collector 60 into the degassing hopper 10 (S50) and the state that the raw material is filled Checking and signaling by the raw material confirmation sensor (S60) and the step of stopping the raw material supply (S70), the step of blocking the gate opening and closing plate (11a) of the gate portion 11 (S80), the operation of the vacuum release solenoid valve 30a on the control device 50 and the step of turning on the vacuum pump 30 (S90) and the vacuum dehumidification without the heater comprising a gas draining hopper for performing the drying and degassing at the same time characterized in that the step of detecting the absence of raw material and the vacuum release solenoid operation and the vacuum pump 30 (S100) It characterized in that it comprises a control method of the device.

Further, the step (S10) of turning on the operation switch of the control device 50 includes the step of operating the temperature controller (S10a), determining the on / off control of the air solenoid valve according to the set temperature (S10b), After 5 seconds after the pre-heated air is supplied, the step of determining the output contact point of the temperature controller on and off (S10c), and the heater is turned on, the heater relay is characterized in that it further comprises a step (S10d).

In addition, as shown in FIG. 4, in the second embodiment of the present invention, a raw material supply device 70 for supplying a synthetic resin raw material and a collector 60 for loading the synthetic resin raw material through the raw material supply apparatus 70 are provided. In the control method of the vacuum dehumidifying apparatus by the gas inherent in the conveying screw portion 90 of the injection molding machine (80),

Turning on the operation switch of the control device (50) (S10), Detecting the absence of raw material in the gas hopper 10 (S20), and the vacuum release solenoid valve 30a on the control device (50) Operation and turning off the vacuum pump 30 (S30), opening the gate opening and closing plate 11a of the gate portion 11 (S40), and signaling the absence of raw materials to the outside (S50) ), And operating the lower short-wave solenoid valve for several seconds (S60) and supplying the raw material in the collector 60 into the gas bleed hopper 10, and confirms and signals the state of the raw material filled by the raw material confirmation sensor Step S70, outputting a signal to the outside that the raw material is full (S80), stopping the supply of the raw material (S90) and the gate opening and closing plate 11a of the gate portion 11 is blocked Step S100 and the vacuum release solenoid valve 30a on the control device 50 There is no heater to perform the drying and degassing at the same time, characterized in that the step of turning on the pump (30) (S110), the step of detecting the absence of raw material solenoid operation and turning off the vacuum pump (30) (S120) It characterized in that it comprises a control method of the vacuum dehumidifier including a gas hopper.

Further, the step (S10) of turning on the operation switch of the control device 50 includes the step of operating the temperature controller (S10a), and determining the on / off control of the vacuum release solenoid valve according to the set temperature (S10b) and 5 seconds after the preheated air is supplied, the step of determining the output contact point of the temperature controller on and off (S10c), and the heater is turned on, and the heater relay is turned on (S10d).

The present invention is described in more detail below, but is not intended to limit the scope of the present invention.

The operation of the heater-less vacuum dehumidifier configuration for simultaneously performing drying and degassing of the present invention will be described in detail with reference to Figs. 1 and 2a to 2d.

1 is a vacuum pump 30 is installed to remove the moisture of the raw material of the synthetic resin in the gas draining hopper 10 and at the same time to remove the gas inherent in the transfer screw unit 90 to perform the drying and degassing at the same time Vacuum dehumidifier is also available.

The operation of the apparatus will be described in detail as follows.

First, before the injection molding operation is performed in the injection machine, the worker checks the loading state of the raw material in the raw material supply device 70 for supplying the synthetic resin raw material, and collects the synthetic resin raw material through the raw material supply device 70. Check the input state at (60).

Thereafter, when the operator switches on the operation of the control device 50, the vacuum pump 30 is operated first, and the drying heater 14 of FIG. 2B is maintained until the constant temperature in the glass tube 13a of the gas draining hopper 10 is maintained. The heating temperature is transferred for about 1 hour until the injection cylinder cylinder heats up.

When the glass tube 13a is heated to about 60 to 100 ° C., the drying heater 14 is stopped and heated by the heat of the cylinder heat sink 100 of the transfer screw 90.

While the vacuum pump 30 is operated, the presence of the raw material is sensed in the gas bleeding chamber 10. At this time, when there is no raw material, the vacuum release solenoid valve 30a on the control device 50 and the vacuum are operated. The pump 30 is turned off, the gate opening and closing plate 11a of the gate portion 11 is opened, and the raw material in the collector 60 is supplied into the gas draining hopper 10.

When the state of the raw material is confirmed by the raw material confirmation sensor, the raw material supply is stopped and at the same time the gate opening and closing plate 11a of the gate unit 11 is cut off, and the vacuum release solenoid valve on the control device 50 ( 30a) operation and the vacuum pump 30 is activated.

Therefore, while the vacuum pump 30 is in operation, the gas drying chamber 10 simultaneously removes the moisture contained in the synthetic resin raw material and the gas contained in the transfer screw unit 90 and simultaneously removes the gas hopper 10. It is exhausted to the outside through the filter which collects the foreign substance of the gas which generate | occur | produces inside, and the vacuum pump 30 which draws out the said gas by vacuum.

In particular, the operation of the gas bleed hopper 10 in detail.

The gas draining hopper 10 has an airtight O-ring 11e embedded therein by a gate opening / closing plate 11a for supplying or blocking raw materials in the collector 60 to the cylinder rod 11b of the cylinder 11c. The gate portion 11 for opening or closing the gate valve 11d is operated, and the upper end portion 12a and the lower end portion 12b are fastened by the clamp parrel 12c, and the upper end portion 12a is rotated by the hinge 12d. Raw material is supplied through the supply part 12 which turns by.

The glass tube 13a supported by the upper and lower fixing stoppers 13c and the upper and lower flanges 13g1 and 13g2 and the flange brackets 13h respectively supporting the upper and lower ends, the stopper and the lower end loads raw materials, Gas is drawn out through the gas exhaust port 13b of the upper portion of the glass tube 13a, and the raw material loading state is confirmed by the raw material confirmation sensors 13d1 and 13d2.

The heating tube 13e and the heating tube socket 13f which are preheated in the glass tube 13a are installed to manage the initial internal temperature of the glass tube 13a.

The raw material moisture removing unit 13 is a drying heater 14a for preheating into the glass tube 13a of the raw material moisture removing unit 13, a temperature measuring device 14b for measuring the preheating temperature, and an air inlet valve 14c for introducing air. The preheating temperature is supplied until the glass tube 13a reaches a constant temperature (about 60 to 100 ° C.) by the drying heater unit 14 including), and when the temperature is set, the drying heater 14a Is stopped, the gas is drawn out through the outlet pipe 90a of the transfer screw unit 90, and the gas of the transfer screw unit 90 is discharged through the cylinder heat sink 100 of the gas draining hopper 10. While maintaining the heat of the cylinder discharged simultaneously with the drying heater unit 14, while maintaining the inside of the glass tube (13a) at a vacuum pressure, it operates to dry the moisture of the raw material through the gas.

The vacuum pressure (break point) refers to the internal temperature in the glass tube 13a of the gas releasing hopper 10, and the heating of this temperature uses the heat of heat radiation of the cylinder and the internal temperature in the transfer screw 90.

Typically, the surface temperature of the feed screw 90 inlet is 60 ~ 70 ℃.

As a result of the embodiment obtained through the operation process is as follows.

 General dehumidifier consumes 3.5 Kw / Hr., 0.2 Kw / Hr. Blower and 2.5 Kw / Hr. Regenerative heater, and uses 6.2 Kw / Hr. Power consumption was 0.03 Kw / Hr. Power consumption was significantly reduced.

In addition, the power consumption of the raw material replacement power consumption of the general dehumidifier is 24.8 Kw / 4 ~ 6 HR. On the other hand, the power consumption of the vacuum pump 30 is 0.03 Kw / Hr. It was.

On the other hand, even in the case of raw material replacement, while the damping operation time due to the non-operation of the injection molding machine is 4 to 6 Hr./time in the case of the general dehumidifier, it is 1 Hr./time in the vacuum pump 30. Inhibition work time was significantly reduced.

In addition, a method of operating a heater-less vacuum dehumidifying apparatus including a gas hopper for simultaneously performing drying and degassing of the present invention will be described in detail with reference to FIGS. 3 and 4.

Figure 3 is a first embodiment operating in the direct transport process of the raw material, the control method of the vacuum dehumidification apparatus without a heater that performs drying and degassing at the same time synthetic resin raw material supply device 70 for supplying the raw material and the synthetic resin And a collector 60 for loading raw materials through the raw material supply device 70, and a method of controlling the vacuum dehumidifying apparatus by the heat radiation of the cylinder of the injection molding machine 80 and the hot gas in the transfer screw unit 90. It is explained in detail. This is detailed as follows.

In order to simultaneously perform drying and degassing of the raw material in the glass tube 13a of the gas draining hopper 10, first, turning on the operation switch of the control device 50 (S10) and the gas releasing hopper 10. Detecting the absence of raw material in the step (S20), operation of the vacuum release solenoid valve 30a on the control device 50 and the step of turning off the vacuum pump 30 (S30), the gate of the gate portion 11 Opening the opening and closing plate (11a) (S40), the step of supplying the raw material in the collector 60 into the gas bleed hopper 10 (S50) and the state of the raw material is filled by the raw material confirmation sensor Checking and signaling (S60), stopping the supply of the raw material (S70), blocking the gate opening and closing plate 11a of the gate portion 11 (S80), and the vacuum on the control device 50 The release solenoid valve (30a) operation and the step of turning on the vacuum pump (30) (S90), by detecting the absence of the raw material vacuum Through the termination of the solenoid operation and the vacuum pump 30 (S100) to control the drying and degassing at the same time.

 Furthermore, the step (S10) of turning on the operation switch of the control device 50 determines the on / off control of the air solenoid valve according to the set temperature through the step of operating the temperature controller (S10a). If the temperature is 20 ° C. or higher, an alarm is sounded, otherwise, the air solenoid valve is turned off (S10b). If the set temperature is 5 seconds after the preheated air is supplied, the output contact of the temperature controller proceeds to the step of determining on and off (S10c), when the output contact is off when the operation of the control device 50 In step S10 of turning on the switch, when the heater relay is turned on in step S10d.

In addition, Figure 4 is a second embodiment that operates in the external transport process of the raw material, the present invention first to perform the drying and degassing of the raw material in the glass tube (13a) of the degassing hopper 10 at the same time, Turning on the operation switch of the control device 50 (S10), the step of detecting the absence of the raw material in the gas hopper 10 (S20), and the vacuum release solenoid valve 30a on the control device 50 Operation and turning off the vacuum pump 30 (S30), opening the gate opening and closing plate (11a) of the gate portion 11 (S40), and signaling the absence of raw materials to the outside (S50) And, operating the lower short-wave solenoid valve for several seconds (S60) and supplying the raw material in the collector 60 into the gas bleed hopper 10, and confirming and signaling the state of the raw material filled by the raw material confirmation sensor (S70) and outputs a signal to the outside that the raw material is full Step (S80), the step of stopping the supply of the raw material (S90), the step of blocking the gate opening and closing plate (11a) of the gate portion (11) (S100) and the vacuum release solenoid valve on the control device (50) 30a) the operation and the step of turning on the vacuum pump 30 (S110), and detecting the absence of raw material to control the vacuum release solenoid operation and the step of turning off the vacuum pump 30 (S120) at the same time.

Furthermore, the step (S10) of turning on the operation switch of the control device 50 determines the on / off control of the air solenoid valve according to the set temperature through the step of operating the temperature controller (S10a). If the temperature is 20 ° C or higher, an alarm is sounded, otherwise, the vacuum release solenoid valve is turned off (S10b). If the set temperature is 5 seconds after the preheated air is supplied, the output contact of the temperature controller proceeds to the step of determining on and off (S10c), when the output contact is off when the operation of the control device 50 In step S10 of turning on the switch, when the heater relay is turned on in step S10d.

As described above, the present invention does not use a heater used in a conventional dehumidifying dryer to perform energy saving and vacuum drying at the top of the screw using cylinder heat, and in particular, drying and screwing by one vacuum pump 30. The gas in the cylinder can be carried out at the same time, thereby improving the gas draining efficiency and shortening the working time, thereby improving productivity.

1 is a view showing a heater-free vacuum dehumidifier including a gas hopper hopper for performing the drying and degassing at the same time of the present invention.

Figure 2a is a view showing a front view of the degassing hopper to perform the drying and degassing at the same time.

Figure 2b is a side view of the degassing hopper to perform the drying and degassing at the same time.

FIG. 2C is a detailed view of the gate portion of FIG. 2A; FIG.

FIG. 2D is a sectional view of the gate portion of FIG. 2C; FIG.

3 is a flowchart showing a first embodiment of a control method of directly transporting a raw material of a vacuum dehumidifier without a heater;

4 is a flow chart showing a second embodiment of a control method for transporting from the outside of a vacuum dehumidifier without a heater.

<Description of the symbols for the main parts of the drawings>

DESCRIPTION OF SYMBOLS 10 Gas draining hopper 20 Primary filter 30 Vacuum pump 30a Vacuum release solenoid valve

40: secondary filter 50: controller 60: collector 70: raw material supply device 80: injection molding machine

90: transfer screw portion 90a: transfer screw outlet pipe

100: cylinder heat sink 11: gate portion

11a: gate opening and closing plate 11b: cylinder rod 11c: cylinder 11d: gate portion

11e: O-ring 12: supply part 12a: upper part 12b: lower part 12c: clamp parol

12d: rotary hinge 13: raw material moisture removing unit 13a: glass tube 13b: gas exhaust port

13c: Upper fixing stopper 13d1, 13d2: Raw material confirmation sensor 13e: Heating tube

13f: Heating tube socket 13g1, 13g2: Upper and lower flange 13h: Flange bracket

14: dry heater 14a: dry heater 14b: temperature measuring instrument 14c: air inlet valve

15: outlet 15a: discharge hopper 15b: auxiliary gas exhaust 15c: connection flange

15d: residue outlet

Claims (8)

Injection comprising a feed screw unit 90 for loading a synthetic resin raw material and a collector 60 for loading the synthetic resin raw material through the raw material supply device 70, the gas is inherent In the molding machine 80, It is connected to the outlet pipe 90a of the transfer screw unit 90, and simultaneously removes the moisture drying contained in the synthetic resin raw material introduced from the collector 60 and the hot gas contained in the transfer screw unit 90 at the same time. The gas draining hopper 10 and the cylinder screw is provided on the outer side of the transfer screw unit 90, the cylinder heat dissipation plate 100 for supplying hot gas to the drying heater 14 of the gas draining hopper 10, The first filter 20, the second filter 40 for collecting the foreign matter of the gas generated in the gas draining hopper 10, the vacuum pump 30 for extracting the gas by vacuum, and the gas draining Degassing hopper for controlling drying and degassing at the same time, characterized in that the control unit 50 for controlling the state of the synthetic resin raw material in the chamber 10, and controlling the temperature by using the vacuum pressure by the operation of the vacuum pump 30 Heat free vacuum dehumidification station including . The method of claim 1, The gas draining hopper 10 has an airtight O-ring 11e embedded therein by a gate opening / closing plate 11a for supplying or blocking raw materials in the collector 60 to the cylinder rod 11b of the cylinder 11c. A gate portion 11 for opening or closing the gate valve 11d; The upper end portion 12a and the lower end portion 12b of the gate portion 11 and the raw material moisture removing portion 13 are fastened by the clamp parol 12c, and the upper end portion 12a is pivoted by the rotary hinge 12d. Supply unit 12, A glass tube 13a for loading raw materials, a gas exhaust port 13b for extracting gas at the upper end of the glass tube 13a, an upper and lower stopper 13c for supporting the glass tube 13a, and a raw material confirmation sensor for confirming the input of raw materials ( 13d1 and 13d2, and a heating tube 13e and a heating tube socket 13f that are preheated in the glass tube 13a are installed, and upper and lower flanges supporting the upper end, the stop part, and the lower end of the glass tube 13a, respectively. A raw material moisture removing unit 13 having a 13g1, 13g2 and a flange bracket 13h; Drying heater unit including a drying heater 14a for preheating into the glass tube 13a of the raw material moisture removing unit 13, a temperature measuring device 14b for measuring the preheating temperature, and an air inlet valve 14c for introducing air ( 14) and,  Drying and degassing, characterized in that the discharge portion 15 comprising a connecting flange (15c) for connecting the dried raw material to the transfer screw unit 90, and a vacuum exhaust port (15b) and the discharge hopper (15a) Heaterless vacuum dehumidifier including a gas hopper running at the same time. In the degassing hopper 10 for drying the synthetic resin raw material, and extracting the gas inherent in the transfer screw portion 90 of the injection molding machine 80, Is connected to the outlet pipe (90a) of the transfer screw unit 90, the gas inherent in the transfer screw unit 90 is withdrawn, the gas of the transfer screw unit 90 through the cylinder heat sink 100 Degassing hopper 10 for performing the drying and degassing at the same time, characterized in that simultaneously with the drying heater unit 14 of the degassing hopper 10. 4. The gas venting hopper 10 is an airtight O-ring by a gate opening / closing plate 11a for supplying or blocking raw materials in the collector 60 to the cylinder rod 11b of the cylinder 11c. A gate portion 11 for opening or closing the gate valve 11d in which 11e is embedded; The upper end portion 12a and the lower end portion 12b of the gate portion 11 and the raw material moisture removing portion 13 are fastened by the clamp parol 12c, and the upper end portion 12a is pivoted by the rotary hinge 12d. Supply unit 12, Glass tube 13a for loading the raw material, gas exhaust port 13b for extracting gas from the upper end of the glass tube 13a, upper fixing stopper 13c for supporting the glass tube, and raw material confirmation sensors 13d1 and 13d2 for checking the input of the raw material. ), A heating tube 13e and a heating tube socket 13f, which are preheated in the glass tube 13a, are installed, and the upper and lower flanges 13g1, which respectively support an upper end, a stop part, and a lower end of the glass tube 13a. 13g2) and the raw material moisture removing unit 13 having a flange bracket 13h, Drying heater unit including a drying heater 14a for preheating into the glass tube 13a of the raw material moisture removing unit 13, a temperature measuring device 14b for measuring the preheating temperature, and an air inlet valve 14c for introducing air ( 14) and, Drying and degassing, characterized in that the discharge portion 15 comprising a connecting flange (15c) for connecting the dried raw material to the transfer screw unit 90, and a vacuum exhaust port (15b) and the discharge hopper (15a) Degassing hopper (10) to run at the same time. It consists of a raw material supply device 70 for supplying a synthetic resin raw material and a collector 60 for loading the synthetic resin raw material through the raw material supply device 70, which is embedded in the transfer screw unit 90 of the injection molding machine 80 In the control method of the vacuum dehumidifier by gas, Turning on the operation switch of the control device 50 (S10) and Detecting that there is no raw material in the gas hopper 10 (S20) and A step of turning off the vacuum pump 30 and the operation of the vacuum release solenoid valve 30a on the control device 50; Opening the gate opening and closing plate (11a) of the gate portion 11 (S40), Turning on to supply the raw material in the collector 60 into the gas draining hopper 10 (S50); Checking and signaling the state of the raw material by the raw material confirmation sensor (S60), Stopping the supply of the raw material (S70), Blocking the gate opening and closing plate (11a) of the gate portion 11 (S80), Operating the vacuum release solenoid valve 30a on the control device 50 and turning on the vacuum pump 30 (S90); The method of controlling a vacuum dehumidifier without a heater to perform drying and degassing at the same time, characterized in that the step of detecting the absence of raw material and the vacuum release solenoid operation and the vacuum pump (30). The method of claim 5, wherein the step of turning on the operation switch of the control device 50 (S10) is a step of operating a temperature controller (S10a), and determining the on, off control of the air solenoid valve according to the set temperature (S10b), 5 seconds after the pre-heated air is supplied, the step of determining the output contact of the temperature controller on and off (S10c), and the heater is turned on, the heater relay is turned on (S10d) characterized in that A control method of a vacuum dehumidifier without a heater that performs gas and degassing at the same time. It consists of a raw material supply device 70 for supplying a synthetic resin raw material and a collector 60 for loading the synthetic resin raw material through the raw material supply device 70, which is embedded in the transfer screw unit 90 of the injection molding machine 80 In the control method of the vacuum dehumidifier by gas, Turning on the operation switch of the control device 50 (S10) and Detecting that there is no raw material in the gas hopper 10 (S20) and A step of turning off the vacuum pump 30 and the operation of the vacuum release solenoid valve 30a on the control device 50; Opening the gate opening and closing plate (11a) of the gate portion 11 (S40), Signaling the absence of raw materials as an alarm (S50) to the outside, Operating the lower shortwave solenoid valve for several seconds (S60); Supplying the raw material in the collector 60 into the gas bleeding hopper 10 and confirming and signaling a state in which the raw material is filled by the raw material confirmation sensor (S70); Outputting a signal to the outside that the raw material is full (S80); Stopping the supply of the raw material (S90) and Blocking the gate opening and closing plate (11a) of the gate portion 11 (S100), Step (S110) of operating the vacuum release solenoid valve 30a and the vacuum pump 30 on the control device 50, and detecting the absence of raw materials to turn off the vacuum release solenoid operation and the vacuum pump 30 ( S120) characterized in that the control method of the vacuum dehumidifier without the heater to perform the drying and degassing at the same time. 8. The method of claim 7, wherein the step (S10) of turning on the operation switch of the control device 50 comprises the step of operating the temperature controller (S10a), and determining the on, off control of the air solenoid valve according to the set temperature (S10b), 5 seconds after the pre-heated air is supplied, the step of determining the output contact of the temperature controller on and off (S10c), and the heater is turned on, the heater relay is turned on (S10d) characterized in that A control method of a vacuum dehumidifier without a heater that performs gas and degassing at the same time.