KR200418227Y1 - heating device of powder slush mold - Google Patents

Abstract

The present invention heats a mold and pours the powder resin to melt the powder resin on the surface of the mold by heat, and cools the resin composition formed by melting the mold to form the shape of the mold and separates it from the mold. The heating apparatus of the powdered resin molding die which manufactures a resin molding is related.

The present invention is to install the external and internal heating hot air directional controller having a plurality of opening and closing wings to arbitrarily adjust the direction of the hot air to be evenly applied to the inside and outside of the mold, in particular, the plurality of opening and closing wings open and close independently one by one By adjusting the angle control mechanism, the hot air is concentrated and blown in any direction, or the hot air is restricted in any direction so that the mold mounted in the mold heating unit is heated to an even temperature distribution. In particular, by attaching a plurality of wind speed sensor inside the mold heating part to detect the wind speed in the mold heating part to apply hot air intensively to the area where the hot air is supplied, so that the temperature distribution of the mold is uniformly heated.

Powder resin molding, mold heating device

Description

Heating device of powder slush mold

1 is a cross-sectional view of the use state of the present invention

Figure 2 is a cross-sectional view showing the state of use of the mold in the present invention

3 is a cross-sectional view showing a state of attaching a resin powder to a mold heated by the present invention.

Fig. 4 is a cross-sectional view of the use state showing cooling and demolding of the resin molding attached to the mold heated by the present invention.

The present invention heats a mold and pours the powder resin to melt the powder resin on the surface of the mold by heat, and cools the resin composition formed by melting the mold to form the shape of the mold and separates it from the mold. The heating apparatus of the powdered resin molding die which manufactures a resin molding is related.

Products made of powdered resin molds are mainly used to manufacture bulky products such as automobile interior materials, automobile seats, and automobile bumpers.

Synthetic resin moldings made of powdered resin molding molds, such as automotive interior materials, have a certain strength and hardness to maintain a certain shape, and at the same time the filling of the foam material having a cushion is filled to absorb shocks.

Therefore, the powder resin molding manufactured by the powder resin molding which is installed in front of the vehicle interior or inside the door has an external element that influences the interior aesthetics of the vehicle, and alleviates the impact when the occupant collides with the interior material during the collision of the vehicle. It will serve to protect.

As a method of manufacturing automotive interior materials, polyurethane foam is foamed internally in a state where the skin is vacuum-molded, and powder resin molding method is prepared by pouring powder resin into a heated mold to deposit powder resin on the mold surface. There is this.

In the form in which one side is opened rather than a three-dimensional shape like an automobile interior material, the powder resin rotation molding method is known as the most suitable manufacturing method.

The powder resin molding method, as mentioned above, heats a mold made in a shape to be made, combines the heated mold with a powder resin container, rotates the mold and the powder resin container by 180 °, and pours the powder resin into the mold to melt the powder resin. It is attached to the surface, the mold and the powder resin container is rotated 180˚ upside down to melt the powder on the surface of the mold to recover the unattached powder resin.

Therefore, the mold is heated to the temperature at which the powder resin is melted and attached, and in addition, the powder resin is attached to an even thickness only when the mold is heated to the same temperature in the entire mold.

That is, where the heating temperature of the mold is high, the deposition amount of the powdered resin is large and thick, and when the heating temperature of the mold is low, the deposition amount of the powdered resin is small and the thickness becomes thin.

Therefore, it is the most important thing that the temperature of the mold is heated to an even temperature as a whole.

In addition, in heating the mold, the mold is heated by applying high temperature hot air to heat transfer evenly and continuously, rather than directly applying heat.

The powdered resin deposited on the heated mold is transferred to a cooling apparatus, cooled by spraying cooling water or air, and then the powder resin film attached to the mold is removed to complete the product.

The present invention provides a heating device for a powdered resin molding die for heating the powdered resin molding die to an even temperature.

As mentioned above, a product manufactured by dissolving a powdered resin in a heated mold is generally large in size, and thus, a mold for manufacturing the same may also be seen that the width X length is 1 to 3 m.

In addition, in the heating method of the powdered resin molding die, heating is performed by applying hot air instead of heating by direct heat by a heater, so that the temperature distribution of the mold is determined according to the advancing direction of the hot air or the temperature of the hot air.

The present invention is to install the external and internal heating hot air directional controller having a plurality of opening and closing wings to arbitrarily adjust the direction of the hot air to be evenly applied to the inside and outside of the mold, in particular, the plurality of opening and closing wings open and close independently one by one By adjusting the angle control mechanism, the hot air is concentrated and blown in any direction, or the hot air is restricted in any direction so that the mold mounted in the mold heating unit is heated to an even temperature distribution. In particular, a plurality of temperature sensors and hot air sensor are attached to the inside of the mold to detect the heating temperature of the mold and the wind speed of the hot wind to intensively apply hot air to the low temperature area so that the temperature distribution of the mold is uniformly heated.

The present invention consists of a mold heating unit (A) and the hot air supply unit (B) and hot air generating unit (C) below it,

Inside the side wall 11 constituting the mold heating portion (A) has an external heating hot air duct 13 and an external heating hot air direction controller 14 composed of a plurality of opening and closing wings 15 on one side thereof, Upper and lower sidewalls 11 have upper and lower heat recovery holes 17 and lower heat recovery holes 18, and the upper and lower heat recovery holes 17 and 18 are connected to the hot air recovery pipe 19 and have a hot air recovery pipe ( 19) leads to the hot air generating unit (C),

The mold heating unit (A) has a rotary hot air supply nozzle 22 rotated left and right in the center of the lower wall 21, and the upper side of the internal heating hot air direction controller 23 composed of a plurality of opening and closing wings 24 The upper portion of the mold heating portion (A) has a top cover 12 for entering and exiting the mold fixing tool 32 for holding and fixing the mold 31 and transporting it,

The hot air generating unit (C) is to be composed of a burner 26, a blower 27 and a hot air chamber (28).

In the above, the drive shafts of the plurality of opening and closing wings 15 of the external heating hot air direction controller 14, which is installed in front of the external heating hot air duct 13 for supplying hot air to the outside of the mold 31, respectively, are adjusted in an arbitrary direction. Has independent drive mechanism,

The drive shafts of the plurality of opening and closing wings 24 of the internal heating hot air direction controller 23 installed in the center of the mold heating unit A lower wall 21 are configured to be independent drive mechanisms, each of which is adjusted in an arbitrary direction. On the surface of the mold heating portion (A) lower wall 21, a far infrared radiation plate 29 coated with a far infrared radiation coating for emitting far infrared rays is provided.

In addition, the mold heating unit (A) to install a plurality of wind speed sensor 33 and a plurality of known temperature sensor 34 to detect the intensity of the hot air supplied from the internal heating hot air direction controller (23). will be.

Unexplained reference numeral 35 in the drawings is an adjusting damper for adjusting the amount of recovered hot air,

36 is an adjusting damper for adjusting the amount of hot air supplied, 30 is a hot air temperature sensor, and 37 is an inverter for adjusting the rotation speed of the hot air blower.

The present invention will be described in more detail and at the same time look at its operation as follows.

The upper cover 12 is opened, the mold 31 fixed to the mold fixing tool 32 is charged into the mold heating part A, and the lower part of the mold fixing tool 32 is placed on the mold rest set so that the mold 31 and After mounting the mold fixing tool 32 into the mold heating unit A, the open top cover 12 is closed to seal the mold heating unit A, and the hot air generating unit including the burner 26 and the blower 27 ( The mold 31 is heated by the hot air supplied from C).

The hot air generated from the hot air generating unit (C) flows into the hot air supply unit (B) located below the mold heating unit (A), and then has a length at the central hot air inlet of the lower wall (21) of the mold heating unit (A). It is introduced into the mold 31 through an internal heating hot air directional controller 23 composed of a rotary hot air supply nozzle 22 and a plurality of opening and closing wings 24 mounted in a direction, thereby heating the inner surface of the mold 31. . The hot air that heated the mold 31 flows into the hot air recovery pipe 19 through the lower heat recovery 18 below the side wall 11, and then flows into the hot air chamber 18 of the hot air generating unit C to burner ( It is mixed with the hot hot air heated by 26) and reused.

On the other hand, the hot air supplied to the hot air supply (B) is introduced into the mold heating unit (A) through the external heating hot air duct 13 formed on the edge of the lower wall 21 of the mold heating unit (A), (31) The outer surface is heated.

The external heating hot air directional controller 14 composed of a plurality of opening and closing wings 15 in front of the external heating hot air duct 13 opens and closes the hot air introduced into the mold heating unit A through the external heating hot air duct 13. Hot air is supplied in an arbitrary direction by adjusting the angle of the blade 15 to heat the outer surface of the mold 31.

As such, the hot air flowing into the mold heating part A through the external heating hot air duct 13 and heating the outer surface of the mold 31 is heated through the upper heat recovery hole 17 above the side wall 11. 19) after being introduced into the hot air generating unit (C) is reused.

In such a configuration, the rotary hot air supply nozzle 22 positioned at the center of the hot air supply unit B, that is, located on the lower wall 21, rotates left and right so that the hot air is mounted on the mold heating unit A. 31) to supply the hot air evenly to the inner surface of the, and according to the wind speed detection signals detected from the plurality of wind speed sensor 33 installed in the mold heating unit (A), to concentrate the hot air in one direction or to supply Rotating to evenly supply the hot air.

In addition, by adjusting the angle of the opening and closing blades 24 of the internal heating hot air regulator 23 having a plurality of opening and closing wings 24 installed in front of the rotary hot air supply nozzle 22, it is supplied from the rotary hot air supply nozzle 22 The hot air is supplied in a specific direction.

External heating wind direction provided in front of the plurality of opening and closing wings 24 of the internal heating hot air regulator 23 positioned in front of the rotary hot air supply nozzle 22 and the external heating air duct 13 installed on all sides of the side wall 11. A plurality of opening and closing wings 15 of the regulator 14 has a drive mechanism (not shown) to be driven independently, closed to block the hot air, or to intensively heat a specific position toward a predetermined direction, rotated to the left and right to mold Hot air is evenly supplied to the inside and the outside of the heating unit (A).

Thus, the hot air heated the inside and the outside of the mold 31 is introduced into the upper and lower heat recovery (17, 18) of the side wall and then transferred to the hot air generating unit (C) through the hot air recovery pipe 19 to generate hot air. It is mixed with the hot hot air of the negative part and reused.

In the inner side of the hot air recovery pipe 19 for recovering the hot air and the external heating wind duct 13 for heating the outside of the mold 31, an adjusting dam 35 and 36 for adjusting the air volume are installed to control the amount of hot air. If the wind speed of the mold heating unit A detects the wind speed in the mold heating unit A, and the wind speed of the mold heating unit A is higher or lower than the reference wind speed, the temperature of the inverter 37 is increased by the blower 27. ) By decelerating or accelerating to control the air blowing amount to adjust the temperature of the mold heating unit (A) to heat the mold 31 to a predetermined temperature.

As described above, the hot air supplied to the inside or outside of the mold 31 of the mold heating part A is installed in the rotary hot air supply nozzle 22 or in front thereof, and an internal heating hot air regulator 23 for controlling and controlling the direction of the hot air; Installed in front of the external heating wind duct 13, by controlling the opening and closing wings (15, 24) of the external heating wind direction controller 14, to evenly apply the hot air to the inside of the mold heating unit (A),

In particular, the present invention detects the wind speed of the mold heating unit (A) with a plurality of wind speed sensor (33) installed inside the mold heating unit (A) when the wind speed is higher or lower than the reference blower to the inverter 37 Adopt a mold heating method to adjust the wind speed by adjusting the rotation speed of (27), and at the same time to control the opening and closing angle of the opening and closing wings (15, 24), so that the temperature of the entire mold 31 is heated to an even temperature. In addition, in the present invention, a plurality of known temperature sensors 34 for detecting a temperature inside the heating furnace are typically installed inside the mold heating unit A, and an installation position of the temperature sensor is closely connected to the mold 31. Rotating hot air supply nozzle 22 to the mold portion having a lower temperature by the temperature detection signals of the plurality of temperature sensors 34 by installing so as to detect the partial temperature of the mold 31 than the temperature in the mold heating portion (A). And blade of the internal heating hot air regulator (23) Is a focusing heat the low temperature portion of the mold 31 by adjusting the angle of 24 to adopt a method of heating the mold to uniformly heat the temperature of the entire mold.

When the mold 31 is heated to the desired temperature as described above, the upper cover 12 above the side wall 11 is opened to draw out the mold 31 and the mold fixing tool 32 together and transferred to the powder resin coating part, and then the mold fixing tool. (32) is combined with the powder resin container, and rotate the powder resin container and the mold fixing tool (32) 180 ° to pour the powder resin of the powder resin container into the mold (31) to allow the powder resin to melt and adhere to the inside of the mold, Rotate the mold fixing tool 32 by pouring 180 ° of the undissolved powder resin inside the mold into the powder resin container. The mold and the mold fixing tool are moved to a cooling water and a blower, cooled, and then melted and attached to the mold 31. After cooling the powdered resin molded article, the molded article is demolded to complete the product.

As such, the present invention is to produce a good quality powder resin molded article by coating the powder resin with a uniform thickness when the entire mold is heated to an even temperature and poured powder resin thereon.

In the powder resin molding in which the mold is heated, the powdered resin is poured, the powdered resin is melted and deposited on the mold by heat, cooled and demolded to produce a powdered resin molded article. The most important thing is to heat the mold to an even temperature.

In general, the powdered resin molded article manufactured by the powdered resin molding method corresponds to a large product having a large size, and thus the mold for manufacturing the powdered resin molded article is also large.

The present invention is a heating device for manufacturing a powder water mold, so that the hot air is evenly applied to the inside and outside of the mold, so that the entire mold is heated to an even temperature, and in particular, the direction of the hot air is arbitrarily adjusted so that a specific part is heated. By attaching a plurality of temperature sensors on the outside, the hot air is particularly applied to a portion where hot air is supplied less so that the entire mold is heated to an even temperature.

As a result, the powdered resin attached to the mold is attached with an even thickness to produce a high quality powdered resin molded article.

In addition, the present invention is a very useful design that greatly saves energy by recovering and using the mold again without exhausting the hot air heated in the mold.

Claims (4)

It consists of a mold heating unit (A) and a hot air supply unit (B) and hot air generating unit (C) below it, Inside the side wall 11 constituting the mold heating portion (A) has an external heating hot air duct 13 and an external heating hot air direction controller 14 composed of a plurality of opening and closing wings 15 on one side thereof, Upper and lower sidewalls 11 have upper and lower heat recovery holes 17 and lower heat recovery holes 18, and the upper and lower heat recovery holes 17 and 18 are connected to the hot air recovery pipe 19 and have a hot air recovery pipe ( 19) leads to the hot air generating unit (C), The mold heating unit (A) has a rotary hot air supply nozzle 22 rotated left and right in the center of the lower wall 21, and the upper side of the internal heating hot air direction controller 23 composed of a plurality of opening and closing wings 24 The upper portion of the mold heating portion (A) has a top cover 12 for entering and exiting the mold fixing tool 32 for holding and fixing the mold 31 and transporting it, The hot air generating unit (C) is a heating device for a powder resin molding die, characterized in that composed of a burner 26, a blower 27 and a hot air chamber 28 According to claim 1, wherein the drive shafts of the plurality of open and close wings 15 of the external heating hot air direction controller 14, which is installed in front of the external heating hot air duct 13 for supplying hot air to the outside of the mold 31, respectively, in an arbitrary direction The drive shaft of the plurality of opening and closing wings 24 of the internal heating hot air direction controller 23 installed in the center of the bottom wall 21 of the mold heating part A has an independent drive mechanism for adjusting the angle in an arbitrary direction. Heating device for powder resin molding die, characterized in that it has an independent drive mechanism The apparatus of claim 1, wherein the bottom surface of the mold heating portion (A) has a far infrared radiation plate (29) coated with a far infrared radiation coating. According to claim 1, wherein the mold heating portion (A) to have a plurality of wind speed sensor 33 and a plurality of known temperature sensors 34 for detecting the intensity of the hot air supplied from the internal heating hot air direction controller (23). Heating device of powder resin molding die, characterized in that

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