JP4021314B2 - Mold cooling method and apparatus in foamed resin molding - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
TECHNICAL FIELD The present invention relates to a mold cooling method and apparatus therefor in foamed resin molding, and a mold cooling method with good cooling efficiency and less cooling water load fluctuation even when a large number of foamed resin molding apparatuses equipped with a mold are arranged in parallel. It relates to the device.
[0002]
[Prior art]
FIG. 3 is a cross-sectional view of an essential part showing an outline of a conventional foamed resin molding machine. A foamed resin material in the silo 4 is filled into a mold 1 formed by combining a pair of molds via a feeder 5. The foamed resin material filled in the mold 1 is heated and molded by supplying steam from the steam source 6 into the mold 1. Subsequently, after the mold 1 is cooled by a cooling device and allowed to cool, the mold 1 is opened, and the foamed resin molded body M is pushed out from the mold 1 (see, for example, Patent Document 1).
[0003]
As shown in FIG. 4, the cooling device for the mold 1 is usually formed by heat-molding the foamed resin component, and then the mold 1 pumps the cooling water from the water tank 2 by the cooling water pump 3 and feeds the water into the mold 1. Then, the cooling water that has been cooled and fed into the mold 1 is returned to the water tank 2 and circulated. The cooling water supply pipe 7 is branched into a plurality of branches and connected to the respective molds 1. The used cooling water is returned to the water tank 2 through the return pipe 8. The foamed resin molded body is continuously produced. When the foamed resin material is filled in the mold 1, the temperature of the mold 1 is sufficiently cooled so that the foamed resin material put into the mold 1 does not foam. It is necessary to be. Moreover, it is necessary to cool sufficiently so that it does not re-foam when the molded product is taken out from the mold.
[0004]
FIG. 5 shows the main piping system of the cooling device. The convex mold and the concave mold forming the mold 1 are hollow, and the mold internal pipe is provided inside the mold. In addition, a large number of nozzles 7a for spraying cooling water are mounted on the pipe in the mold. The water supply pipe 7 is branched, one of the water supply pipes 7 is provided with a cooling water release valve V1, and the other water supply pipe 7 is provided with a cooling water release valve V2, and these water supply pipes 7 are located in a mold equipped with a nozzle 7a. Each pipe is connected. Return pipes 8 are connected to the bottoms of the pair of molds 1, drain valves V3 and V4 are provided on the return pipes, and ends of the return pipes 8 are piped to a water tank.
[0005]
[Patent Document 1]
Japanese Patent Application No. 2001-193133 (FIG. 2)
[0006]
[Problems to be solved by the invention]
In the conventional foamed resin molding machine disclosed in Patent Document 1, a large number of foamed resin molding machines equipped with molds are mounted to increase productivity, and the molds are cooled to forcibly cool them. A device is attached. The cooling device is configured to supply cooling water to the molds of a large number of foamed resin molding machines using a cooling water pump. In a foamed resin molding machine equipped with a large number of molds, When cooling water is supplied all at once, there is a drawback in that the amount of cooling water supplied and the supply pressure fluctuate. When the amount of supply water to the cooling water mold and the load fluctuation of the supply pressure are large, the cooling time of the mold varies and it is difficult to produce a foamed resin molded product of stable quality. . In order to solve such a problem, it can be solved by increasing the capacity of the cooling water pump, but there is a drawback that the mold cooling device becomes expensive.
[0007]
On the other hand, since the cooling water is circulated, the temperature of the cooling water tends to be higher in the afternoon than in the morning during continuous operation. When the water temperature fluctuates depending on the operation time, there is a drawback that a difference occurs in the cooling time required for cooling the mold. In order to eliminate such a phenomenon, it was necessary to take a measure of installing a large cooling tower and the like after cooling the heated cooling water. Also, since the cooling water temperature changes between morning and afternoon, measures have been taken to change the predetermined cooling time to perform the foamed resin molding process, or to increase the cooling time according to the water temperature. . As described above, in the conventional mold cooling apparatus for foamed resin molding, it is difficult to control the temperature of the water tank, which may hinder the productivity of the foamed resin molded product.
[0008]
The present invention has been made in view of the above problems, and even when a large number of foamed resin molding machines having a mold attached thereto are arranged in parallel, there is little fluctuation in the load of cooling water, and mold cooling in foamed resin molding with good cooling efficiency. It is an object to provide a method and apparatus thereof.
[0009]
[Means for Solving the Problems]
The present invention achieves the above-mentioned problems, and the invention of claim 1 is directed to a mold cooling method in foamed resin molding,
When cooling the mold with cooling water, the cooling water from the water tank is once sent to the pressurized tank for storage, and the cooling water is pressurized with pressurized air and sprayed into the mold and intermittently in the mold. Pressurized air supplied intermittently into the mold against the pressure of the pressurized air that pressurizes the cooling water in the pressurized tank so that the mold is cooled by supplying the pressurized air The mold cooling method is characterized in that the pressure of the mold is set high.
[0010]
In the invention of claim 1, when cooling the mold, the cooling water is once sent to the pressurized tank, pressurized by the air pressure, sprayed into the mold and cooled, and the pressurized cooling water Is supplied into the mold, the steam is rapidly turned into steam by the mold heated to a high temperature, the heat of vaporization is absorbed from the heated mold, and the mold can be efficiently cooled. In addition, since the cooling water is stored in the pressure tank each time, even if a large number of molds are arranged in parallel in order to secure the necessary cooling water amount before spraying, the cooling water necessary for each mold is used. Is supplied. Therefore, it is possible to ensure a certain amount of water supply required for each mold without being affected by the capacity of the cooling water pump, and the cooling water is pressurized by pressurized air, and the constant supply water It has the effect | action which can ensure a pressure. Further, the cooling water is stored in the pressure tank to cool the mold, so that the cooling time is stable and the time for the cooling process after forced cooling can be shortened.
[0011]
In the present invention, while spraying a pressurized coolant into the mold, it is intermittently supplied to the gold in the form of compressed air with the cooling water.
[0012]
Furthermore, in the present invention, while the cooling water is sprayed into the mold, the pressurized air is intermittently supplied to cool the mold, and the intermittent supply is performed. The cooling water remaining in the mold is blown away by the compressed air, the inside surface of the mold is exposed, and the cooling water is sprayed, so that the new mist-like cooling water is sufficiently distributed in the mold. Thus, the cooling effect can be enhanced. Moreover, even if the nozzle has a structure in which it is difficult to mount the nozzle, or there is a portion where the nozzle cannot be provided, or even if the nozzle arrangement is poor, mist-like cooling water is in the mold. It has the function of spreading sufficiently and enhancing the cooling effect.
[0013]
In addition, since the pressurized air supplied intermittently diffuses into the mold from the narrow hole nozzle, the temperature of the pressurized air is about 20 ° C. Since the temperature is lowered and the mold is blown into the mold and air-cooled, the cooling effect is further enhanced, and the cooling time of the mold can be further shortened. Furthermore, by supplying pressurized air into the mold, there is an effect that the cooling water in the mold and the piping can be removed and discharged, and steam supplied during the heating process of the mold Thus, there is an effect that it is possible to avoid the remaining cooling water in the mold from evaporating and the steam from filling the mold and hindering the cooling effect. Further, by reducing the residual cooling water in the mold, it is possible to suppress the amount of heat that is wasted, so that the amount of steam used for heating the mold can be reduced.
[0014]
Also, the supply of pressurized air into the mold is controlled to be performed immediately after the completion of the supply of pressurized cooling water into the mold together with intermittent supply, and residual cooling water in the mold is reduced. By dispelling and reducing the amount of residual cooling water in the mold, there is an effect that the cooling and heating of the mold can be improved. When the pressurized air is intermittently supplied into the mold, there is an effect that the mold can be effectively cooled and heated by performing such a pressurized air supply method.
[0015]
Further, the present invention, the relative pressure of the pressurized air for pressurizing the cooling water in pressurized tank, it is and sets a high pressure of the pressurized air intermittently supplied.
[0016]
In the present invention, the pressurized air is intermittently interrupted in the cooling water by setting the pressure of the pressurized air supplied intermittently higher than the air pressure of the cooling water sprayed in the mold. Can be fed into the mold. In addition, the cooling water remaining in the mold and the piping has an effect that the cooling water can be sprayed into the mold while being blown off by a high air pressure. The pressurized cooling water is sprayed into the mold at a pressure higher than the pressure value, and has an effect of allowing the cooling water to be widely dispersed in the mold.
[0017]
Further, the invention of claim 2 is a mold cooling apparatus in foamed resin molding,
In order to supply the pressurized cooling water into the mold after temporarily storing the cooling water from the water tank and pressurizing it with pressurized air in a cooling system that cools the mold by spraying the cooling water. pressure tank is provided with, while the pressurizing tank is sprayed with cooling water under pressure into the mold intermittently supplying pressurized air supplying pressurized air into the mold The pressure of the pressurized air supplied from the pressurized air supply means is set to a value higher than the pressure of the pressurized air for pressurizing the cooling water in the pressurized tank. Mold cooling device.
[0018]
In the invention of claim 2 , by providing a pressure tank in the mold cooling system, necessary cooling water can be prepared in the pressure tank in advance, so that the mold cooling step in foamed resin molding In this case, the cooling water necessary for cooling can be supplied into the mold, and even if the capacity of the cooling water pump is small, the constant cooling water amount required for all the molds can be supplied. . In addition, the cooling water is pressurized at a constant pressure with pressurized air, has the effect of constant supply pressure of the cooling water into the mold, and a large number of foamed resin moldings with a large number of molds arranged side by side Even if it is a machine, it has the effect | action which can eliminate the influence of a load fluctuation.
[0019]
In the invention of claim 2 , the pressurized air supply means adjusts the pressure of the pressurized air from the air source, and the intermittent air input valve (for example, an electromagnetic valve or a pneumatic control valve) is provided at a predetermined interval. By opening and closing, pressurized air can be intermittently supplied into the mold. Since the control of the intermittent air input valve is easy, it has the effect of easily setting the optimum conditions for cooling the mold. The pressurized air supply means is equipped with a pressurizing device in the air source, and the pressure value of the pressurized air from the air source is set to a value higher than the pressure of the pressurized air supplied to the pressurized tank, so that it is high Residual cooling water in the mold can be effectively eliminated by the air pressure. Furthermore, by supplying pressurized air intermittently, the pressurized cooling water is further pressurized and fed into the mold and sprayed, and the mist-like cooling water is immediately vaporized, and the heat of vaporization The metal mold has an effect of cooling the inner surface of the mold and cooling the mold while removing this vapor .
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a mold cooling apparatus in foamed resin molding of the present invention will be described with reference to the drawings. FIG. 1 is a system diagram showing the mold cooling apparatus of the present embodiment, and FIG. 2 is a system diagram of the main part of the mold cooling apparatus of the present embodiment.
[0022]
In FIG. 1, a mold 10 of a foamed resin molding machine is composed of a concave mold 10a and a convex mold 10b, and sprays cooling water into the concave mold 10a and the convex mold 10b. A large number of nozzles 9 are mounted on the pipe in the mold, a cooling device including the water tank 2 and the cooling water pump 3 is attached to the mold 10, and a heating device (not shown) for molding foamed resin is provided. It has been. The cooling device pumps the cooling water in the water tank 2 with the cooling water pump 3 and supplies it into the mold 10 for cooling.
[0023]
First, the water supply piping system of the cooling water to the concave mold 10a will be described. The cooling water in the water tank 2 is pumped up from the water supply pipe by the cooling water pump 3, and the water supply pipe is branched into the water supply pipes L1, L3. An inlet valve V10 is provided in the water supply pipe L1, an end of the water supply pipe L1 is connected to the upper part of the pressurized tank 11, one end of the water supply pipe L2 is connected to the lower part of the pressurized tank 11, and many other ends are provided. The nozzle 9 is connected to the pipe in the mold. The water supply pipe L2 is provided with a cooling water on / off valve V12.
[0024]
The other branched water supply pipe L3 is provided with an inlet valve V11, and an end of the water supply pipe L3 is connected to the upper portion of the pressurized tank 12. One end of a water supply pipe L4 provided with a cooling water on-off valve V14 is connected to the lower part of the pressurized tank 12, and the other end is connected to an in-mold pipe equipped with a number of nozzles 9.
[0025]
On the other hand, in the pressurized air supply piping system for pressurizing the cooling water, one end of the piping A1 provided with the pressurized air valve V13 is connected to the upper portion of the pressurized tank 11, and the other end is connected to the air source A. Has been. One end of the pipe A2 provided with the pressurized air valve V15 is connected to the upper part of the pressurized tank 12, and the other end is connected to the air source A.
[0026]
In the cooling water return piping system, return pipes L5 are connected to the bottoms of the concave mold 10a and the convex mold 10b, and drain valves V16 and V17 are provided in the respective return pipes L5. The other end is piped to the water tank 2.
[0027]
Next, the mold cooling method of this embodiment is demonstrated. First, the inlet valves V10 and V11 are opened. The cooling water in the water tank 2 is pumped up by the cooling water pump 3 and sent into the pressurized tanks 11 and 12 to be supplied to a predetermined water level, and the inlet valves V10 and V11 are closed. Subsequently, the pressurized air valves V13 and V15 are opened, pressurized air from the air source A is supplied into the pressurized tanks 11 and 12, and the cooling water is pressurized. When the heating step of the foamed resin molding step is completed, the cooling water on / off valves V12 and V14 are opened. The pressurized cooling water in the pressurized tanks 11 and 12 is supplied into the concave mold 10a and the convex mold 10b through the water supply pipes L2 and L4, respectively. Since the cooling water is discharged from the narrow hole of the nozzle 9 in the concave mold 10a and the convex mold 10b, it is sprayed in the form of a mist, and the concave mold 10a and the convex mold 10b are cooled. . After the concave mold 10a and the convex mold 10b are cooled, the mold 10 is opened through a cooling process, and the molded product formed of the foamed resin in the mold 10 is taken out. Subsequently, a foamed resin material is supplied into the mold 10 and a foamed resin molding process is performed. While the foamed resin component is being supplied, cooling water is supplied into the pressurized tanks 11 and 12 and pressurized by the pressurized air, and preparation for the cooling process of the mold 10 is completed.
[0028]
Furthermore, the details of the pressurized tank in the above embodiment will be described with reference to the forms shown in FIGS. FIG. 2A shows the pressurized tank 11 on the concave mold 10a side. A level meter 13 is provided in the pressurized tank 11, and the level meter 13 is supported by a level adjustment rod 14. By moving the level adjustment rod 14 up and down, the position of the level meter 13 is adjusted, and the water level of the cooling water in the pressurized tank 11 can be set. A pipe A <b> 3 provided with an exhaust valve V <b> 19 for exhausting air in the pressurized tank 11 is connected to the upper part of the pressurized tank 11. Further, one end of a water supply pipe L2 provided with a cooling water on / off valve V12 is connected to the lower part of the pressurized tank 11, and the other end is connected to an in-mold pipe on which many nozzles 9 are mounted. One end of an intermittent air supply pipe A4 is connected to the pipe between V12 and the nozzle 9, and the other end is connected to the pressurized air source A. The intermittent air supply pipe A4 is provided with an intermittent air input valve V18 and a pressure setting valve 16 for setting the pressure of pressurized air. The intermittent air input valve V18 is opened and closed intermittently, and pressurized air is supplied into the concave mold 10a. Moreover, the pressure setting valve 15 for setting the pressure of pressurized air is provided in the pipe A1, and the pressure setting valve 15 and the pressure setting valve 16 are intermittently supplied with respect to the pressure for pressurizing the cooling water. The pressure of the compressed air to be set is adjusted to be high.
[0029]
FIG. 2 (b) shows details of the pressurized tank 12 on the concave mold 10b side, and has the same configuration as the piping system of FIG. 2 (a). In the pressurized tank 12, a level meter 13 is provided to be supported by the level adjusting rod 14, and the water level of the cooling water in the pressurized tank 12 is set. A pipe A5 for exhausting the air in the pressurized tank 12 is connected to the upper part of the pressurized tank 12, and an exhaust valve V21 is provided in the pipe A5. Further, a water supply pipe L4 is connected to the lower portion of the pressurized tank 12, and one end of an intermittent air supply pipe A6 is connected to the pipe between the nozzle 9 and the cooling water on / off valve V14 connected to the water supply pipe L4. The other end is connected to the air source A, and the intermittent air supply pipe A6 is provided with an intermittent air input valve V20 and a pressure setting valve 18. The pipe A2 is provided with a pressure setting valve 17 for setting the pressure of the pressurized air. The pressure setting valve 17 and the pressure setting valve 18 are intermittently supplied with respect to the pressure for pressurizing the cooling water. The pressure of the compressed air to be set is adjusted to be high.
[0030]
Next, the mold cooling method in this embodiment is demonstrated with reference to FIG.1 and FIG.2. In the mold cooling method of the present embodiment, the foamed resin material is supplied into the mold 10 before the foamed resin molding is started, and the mold 10 is heated. The cooling process is performed after the heating process, but the cooling water is supplied into the pressurized tanks 11 and 12 before the heating process. First, the inlet valves V10 and V11 are opened, and cooling water is supplied into the pressurized tanks 11 and 12. At that time, the exhaust valves V19 and V21 for exhausting the air in the pressurized tanks 11 and 12 are opened. Cooling water is supplied into the pressurized tanks 11 and 12 from the water supply pipes L1 and L3. The level meter 13 measures the cooling water level and supplies the cooling water to a predetermined level. When the cooling water is supplied to a predetermined level in the pressurized tanks 11 and 12, the level meter 13 is operated and the inlet valves V10 and V11 and the exhaust valves V19 and V21 are closed.
[0031]
Thereafter, the pressurized air valves V13 and V15 are opened, the pressurized air set by the pressure setting valves 15 and 17 is supplied into the pressurized tanks 11 and 12, and the cooling water in the pressurized tanks 11 and 12 is supplied. Set to pressurized state. When the heating process in the foamed resin molding is completed, the cooling water on / off valves V12 and V14 are opened, and the pressurized cooling water in the pressurized tanks 11 and 12 is sprayed into the molds 10a and 10b. At this time, the intermittent air input valves V18 and V20 are also intermittently opened and closed simultaneously, and pressurized air is intermittently supplied so as to interrupt the pressurized cooling water. The air pressure of the intermittent air is set higher than the pressure of the pressurized air applied to the cooling water by adjusting the pressure setting valves 15 and 17. In the cooling process of the mold 10, the drain valves V <b> 16 and V <b> 17 are opened, and when pressurized air is supplied intermittently, it is discharged from the return pipe L <b> 5. The cooling water is returned to the water tank 2 through the return pipe L5. After the mold 10 is cooled, the mold 10 is opened through a cooling process, and the foamed resin molded product is taken out.
[0032]
The mold cooling process is performed by supplying cooling water into the pressurized tanks 11 and 12 and pressurizing them before the heating process of foaming resin molding is started, and after the pressurized cooling water is prepared. The preparation of pressurized cooling water may be completed before the process is executed or the heating process is completed. Further, while the pressurized cooling water is supplied into the mold 10, the pressurized air is intermittently supplied into the mold 10. The intermittently supplied pressurized air has an air cooling effect, and the pressurized air may be continuously supplied during the cooling step after cooling.
[0033]
In this embodiment, the cooling water sprayed from the nozzle 9 into the mold 10 is sprayed on the mold surface at 110 to 115 ° C., so the cooling water evaporates in a very short time, and the heat of vaporization at that time The mold 10 can be forcibly cooled by removing heat from the inner surface of the mold. After the forced cooling process, the mold 10 is subjected to a cooling process, and the molded product is taken out from the mold 10. However, the mold 10 needs to be cooled to a temperature at which the molded product does not re-foam, generally within a range of 60 to 65 ° C. is there.
[0034]
Further, the cooling water pressurized by air pressure in the mold 10 is rapidly sprayed into the mold 10 from the narrow hole nozzle 9 in a mist and immediately evaporated to absorb the heat of vaporization. Can be cooled to. Similarly, when the pressurized air intermittently supplied into the mold is dissipated from the narrow hole of the nozzle 9, the pressurized air at about 20 ° C. becomes a lower temperature and air-cools the mold 10. The effect can be further enhanced.
[0035]
Further, by intermittently supplying pressurized air into the mold 10, the drain valves V16 and V17 are opened, and the cooling water remaining in the mold 10 is discharged to the return pipe L5. It is possible to cool the air while blowing off the remaining cooling water adhering to the surface. Since the remaining cooling water in the mold 10 is eliminated, it is possible to prevent the remaining cooling water from being heated by the steam supplied during the heating process, so that the heat utilization efficiency is also good for foamed resin molding.
[0036]
【The invention's effect】
As described above, according to the first aspect of the present invention, when cooling the mold, the cooling water is temporarily stored in the pressurized tank, pressurized with pressurized air, and supplied into the mold. In addition, since the pressurized cooling water necessary for cooling the mold is prepared in the pressurized tank, there is an advantage that the supply amount and supply pressure of the cooling water do not fluctuate, and the pressurized cooling water has a narrow hole. Because it is discharged into the mold from the nozzle, the cooling water is sprayed in the form of a mist due to a rapid pressure drop, taking vaporization heat into steam, and at that time, absorbing heat from the mold surface, There is an advantage that the mold is efficiently cooled and the cooling time of the mold is stabilized.
[0037]
In addition, the cooling water is stored in the pressure tank and pressurized after each cooling process, and is sprayed, and is necessary before spraying, that is, during the heating process of foaming resin molding. Since a large amount of water is stored in the pressure tank, it is not necessary to increase the capacity of the cooling water pump, even if it is a small capacity cooling water pump, even if it is a large number of foamed resin molding machines with many dies arranged in parallel. There is an advantage that a necessary amount of cooling water can be supplied.
[0038]
Further, according to the present invention, when spraying cooling water, pressurized air is intermittently supplied so that new cooling water can be sprayed even if there is residual cooling water in the mold. , The pressurized air is supplied, the remaining cooling water is excluded, the exposed area in the mold is expanded, and the sprayed cooling water is sufficiently distributed in the mold, so that the cooling effect can be enhanced. is there. In addition, even if the nozzle is difficult to install, there is a part where the nozzle is not provided, or the nozzle arrangement is poor, the mist-like cooling water is distributed in the mold to enhance the cooling effect. There is an advantage that can be. Further, by supplying pressurized air into the mold, there is an advantage that the mold is cooled by air and the cooling time of the mold can be further shortened. Furthermore, by supplying pressurized air, the cooling water in the mold and the piping is discharged, the cooling effect is not hindered, and the remaining cooling water in the mold and the piping also in the mold heating process. Therefore, the remaining cooling water is not vaporized and the amount of heat is not lost, and the amount of steam used for heating can be suppressed.
[0039]
Further, according to the present invention, by setting the pressure of the pressurized air supplied intermittently higher than the pressure of the pressurized cooling water sprayed in the mold, After removing the remaining cooling water, the pressurized cooling water can be supplied, and the pressurized cooling water can be further pressurized and supplied into the mold, further enhancing the cooling effect. There is an effect that can be done.
[0040]
Further, according to the invention of claim 2 , by providing the pressurized tank, the cooling water can be stored in the pressurized tank in advance, and it is supplied into the pressurized tank even when the capacity of the cooling water pump is small. After pressurizing, it is only necessary to supply pressurized cooling water, and it is possible to supply cooling water to all molds at a constant water pressure and to cool the molds without being affected by load fluctuations. is there.
[0041]
Further , according to the invention of claim 2 , the pressurized air supply means pressurizes the air with a pressurizing device, and intermittently operates, for example, an electromagnetic input valve or an intermittent input valve including air pressure control. There is an effect that pressurized air can be supplied inside. The pressurized air supply means includes a pressurizing device, and pressurizes the residual cooling water in the mold by setting the pressurizing device to a value higher than the pressure of the pressurized air supplied to the pressurizing tank. The heating process and the cooling process can be carried out by forcibly removing with air, and the heating and cooling can be performed efficiently.
[Brief description of the drawings]
FIG. 1 is a system diagram showing an embodiment of a mold cooling apparatus according to the present invention.
FIG. 2 is a system diagram of a main part of the mold cooling device of the present embodiment.
FIG. 3 is a cross-sectional view of an essential part showing an outline of a conventional foamed resin molding machine.
FIG. 4 is a system diagram of a conventional mold cooling apparatus.
FIG. 5 is a system diagram of a main part of a conventional mold cooling apparatus.
[Explanation of symbols]
2 Water tank 3 Cooling water pump 9 Nozzle 10 Mold 10a Concave mold 10b Convex mold 11, 12 Pressure tank 13 Level meter 14 Level adjustment rod 15-18 Pressure setting valve A Air source A1, A2 Piping V10, V11 Inlet Valves V12, V14 Cooling water on-off valves V13, V15 Pressurized air valves V16, V17 Drain valves V18, V20 Intermittent air input valves V19, V21 Exhaust valves L1, L2, L3, L4 Water supply piping L5 Return piping

Claims (2)

In the mold cooling method in foamed resin molding,
When cooling the mold with cooling water, the cooling water from the water tank is once sent to the pressurized tank for storage, and the cooling water is pressurized with pressurized air and sprayed into the mold and intermittently in the mold. Pressurized air supplied intermittently into the mold against the pressure of the pressurized air that pressurizes the cooling water in the pressurized tank so that the mold is cooled by supplying the pressurized air A mold cooling method characterized by setting the pressure of the mold high. In the mold cooling device in foamed resin molding,
In order to supply the pressurized cooling water into the mold after temporarily storing the cooling water from the water tank and pressurizing it with pressurized air in a cooling system that cools the mold by spraying the cooling water. pressure tank is provided with, while the pressurizing tank is sprayed with cooling water under pressure into the mold intermittently supplying pressurized air supplying pressurized air into the mold The pressure of the pressurized air supplied from the pressurized air supply means is set to a value higher than the pressure of the pressurized air for pressurizing the cooling water in the pressurized tank. Mold cooling device.

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