JP2016221899A - Injection molding machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an injection molding machine capable of making the parallel degree of a die satisfactory during molding.SOLUTION: Provided is an injection molding machine comprising: a fixed die plate 1 mounted with a movable die 4 and a die opened/closed fixed die 2; an injection nozzle 8 nozzle-touched with the fixed die 2; and a heating cylinder 7 mounted with the injection nozzle 8, and, when a molded body is molded, the injection nozzle 8 and the heating cylinder 7 capable of being made into high temperature are arranged in the vicinity of the fixed die plate 1 mounted with the fixed die 2, where the fixed die plate 1 mounted with the fixed die 2 is provided with a heat insulation material 13 as a temperature control means located above the injection nozzle 8 and the heating cylinder 7.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an injection molding machine that molds a molded body by opening and closing a mold, and particularly relates to an injection molding machine capable of maintaining good parallelism of a mold that is opened and closed.

  In a general injection molding machine that has been used in the past, a granular thermoplastic resin as a raw material is fed into a heating cylinder, and the resin at the tip of the screw is melted by a reciprocating screw provided in the heating cylinder. Send to the nozzle side, inject the molten resin into the mold cavity from the nozzle provided on the tip of the screw, cool the molten resin in the cavity and solidify, then open the mold and mold with the protruding pin etc. The molded product is molded by removing the molded product attached to the mold from the mold.

  Such an injection molding machine for molding a molded body such as plastic is roughly composed of a mold clamping unit and an injection unit. In the mold clamping unit, a fixed mold and a movable mold are generally provided, and the movable mold is fixed to the fixed mold by a movable means such as a toggle link mechanism including a plurality of connecting arms. Advance and retreat and perform mold closing (clamping) or mold opening.

  By the way, in order to manufacture a high-quality molded product free from deformation, distortion, burrs, etc., it is desirable to clamp the mold while maintaining the parallelism between the fixed mold and the movable mold that are clamped together. As a technology related to such technology, in Patent Document 1, an adapter plate is provided between a platen and a mold, the adapter plate is divided into a plurality of regions, and the temperature of each divided region is measured. Thus, it is described that by adjusting the temperature for each region, the in-mold parallelism is adjusted with high accuracy during molding.

JP, 2014-162060, A

  The technique related to the mold clamping device of the injection molding machine of Patent Document 1 adjusts the temperature of an adapter plate provided between a platen and a mold, and uses the difference in thermal expansion of the adapter plate to parallelize the mold. The injection nozzle of the injection unit is in a state where the injection nozzle of the injection unit is nozzle-touched to a fixed mold mounted on a fixed die plate. Therefore, a heating cylinder that can be at a high temperature to which the injection nozzle is mounted is disposed in the vicinity of the fixed die plate to which the fixed mold is mounted. Therefore, the fixed die plate is a heating cylinder. As a result, the temperature difference between the upper and lower sides of the fixed die plate is generated. Specifically, in the fixed die plate, due to the high heat rising from the heating cylinder, the portion located on the upper side of the heating cylinder from the lower side of the heating cylinder becomes high temperature. Due to the difference, it becomes difficult to keep the parallelism of the fixed mold mounted on the fixed die plate with respect to the movable mold.

  The present invention has been made in view of the above-described problems. An injection nozzle and a heating cylinder equipped with the injection nozzle, which can become a high temperature when forming a molded body, are disposed in the vicinity of a fixed die plate. It is an object of the present invention to provide an injection molding machine capable of ensuring a high degree of parallelism of a fixed mold with respect to a movable mold during molding and improving the quality of a molded article to be molded. To do.

The invention related to this injection molding machine
A fixed die plate on which a movable mold and a fixed mold to be opened and closed are mounted;
An injection nozzle that is nozzle-touched to the fixed mold;
A heating cylinder to which the injection nozzle is mounted,
An injection molding machine in which the injection nozzle and the heating cylinder, which can be at a high temperature when forming a molded body, are disposed in the vicinity of the fixed die plate to which the fixed mold is mounted,
The fixed die plate on which the fixed mold is mounted is positioned above the injection nozzle and the heating cylinder, or below the injection nozzle and the heating cylinder to adjust the temperature. A temperature adjusting means is provided.

The invention related to this injection molding machine
When forming the molded body, when the injection nozzle is touched to the fixed mold, the injection nozzle and the heating nozzle are inserted in the injection nozzle insertion holes in the lateral direction, and the fixed die is formed. Forming on the plate,
As the temperature adjusting means positioned above the injection nozzle and the heating cylinder, a heat insulating material is provided on the upper inner wall surface of the injection nozzle insertion hole.

The invention related to this injection molding machine
As the temperature adjusting means positioned above the injection nozzle and the heating cylinder, a heat dissipating fan for discharging the gas between the heat insulating material and the injection nozzle and the heating cylinder to the outside is provided. To do.

  According to the present invention of the injection molding machine, if the high heat of the injection nozzle and the heating cylinder is transmitted to the fixed die plate during the molding of the molded body, the fixed die plate is positioned below the injection nozzle and the heating cylinder. The part located above the injection nozzle and the heating cylinder is going to be hotter than the part to be heated, but the upper temperature is set to be the same as the temperature below the heat insulating material that blocks the heat that is going to be transmitted upward. The temperature difference between the upper and lower sides of the fixed die plate is provided by the temperature adjustment means such as a heat-dissipating fan that lowers or the temperature adjustment means such as a heating device that raises the lower temperature to be the same as the upper temperature. Can be adjusted so as not to increase. Therefore, it becomes possible to suppress the difference in expansion between the upper and lower sides of the fixed die plate, the parallelism of the fixed mold with respect to the movable mold can be ensured with high accuracy, and as a result, the quality of the molded body to be molded can be improved. Can be planned.

  Further, during molding, when the injection nozzle and the heating cylinder are inserted into the injection nozzle insertion hole of the fixed die plate formed to open in the lateral direction, the temperature adjustment located above the injection nozzle and the heating cylinder. As a means, since the heat insulating material is provided on the upper inner wall surface of the injection nozzle insertion hole, the heat insulating material prevents the temperature of the portion of the fixed die plate located above the injection nozzle and the heating cylinder from rising. And it can suppress that the temperature difference of the upper and lower sides of a fixed die plate does not become large. Therefore, it becomes possible to suppress the difference in expansion between the upper and lower sides of the fixed die plate, and the parallelism of the fixed mold with respect to the movable mold can be ensured with high accuracy.

It is a block diagram which shows the principal part of the injection molding machine of Example 1. It is a block diagram which shows the fixed die plate of the injection molding machine of Example 1. It is a block diagram which shows the fixed die plate of the injection molding machine of a modification. It is a block diagram which shows the principal part of the injection molding machine of Example 2. It is a block diagram which shows the principal part of the injection molding machine of Example 3. It is a block diagram which shows the principal part of the injection molding machine of Example 4.

  Embodiments for carrying out the present invention will be described below with reference to FIGS. Needless to say, the present invention can be easily applied to configurations other than those described in the embodiments without departing from the spirit of the invention.

  The injection molding machine of the present invention can be broadly divided into a mold clamping unit for opening and closing a movable mold 4 mounted on the movable die plate 3 with respect to a fixed mold 2 mounted on the fixed die plate 1, and a mold closing. And an injection unit 5 for injecting molten resin into the cavity of the mold.

  Between the fixed die plate 1 and the fixed mold 2, there is provided a heat insulating mold plate 6 that prevents the heat of the fixed mold 2 from being transmitted to the fixed die plate 1. The fixed die plate 1 is provided integrally with the heat insulating mold plate 6.

  The injection unit 5 has a cylindrical shape, a heating cylinder 7 that heats and melts the thermoplastic resin at a high temperature inside, an injection nozzle 8 that is provided at the tip of the heating cylinder 7 and that can transfer heat from the heating cylinder 7, and the heating cylinder 7. A screw for kneading the thermoplastic resin provided in the heating cylinder 7, a heating cylinder mounting bracket 9 for holding the heating cylinder 7 in a cantilever shape, and a heating cylinder mounting bracket 9 disposed below the heating cylinder mounting bracket 9. A unit base 10 that supports the cylinder mounting bracket 9 so as to freely advance and retract, a drive mechanism 11 that advances and retracts the injection unit, and the like are configured.

  An injection nozzle insertion hole 12 is formed in the fixed mold 2, the heat insulating mold plate 6, and the fixed die plate 1. The injection mold insertion holes 12 formed in the fixed mold 2, the heat insulating mold plate 6, and the fixed die plate 1 communicate in the horizontal direction (horizontal direction), and the injection nozzle 8 provided in the injection unit 5 is The injection unit 5 is advanced to the fixed mold side by the drive mechanism 11, so that the fixed mold 2 is nozzle-touched. In addition, in the state where the tip of the injection nozzle 8 is nozzle-touched to the fixed die plate 1 for forming the molded body, as shown in FIG. 1, injection nozzle insertion formed in the fixed mold 2 and the heat insulating mold plate 6 is performed. The injection nozzle 8 is inserted into the hole 12, and the injection nozzle 8 and the leading end side of the heating cylinder 7 are inserted into the injection nozzle insertion hole 12 formed in the fixed die plate 1.

  The injection nozzle insertion hole 12 formed in the fixed die plate 1 is provided with a heat insulating material 13 adhered to the upper inner wall surface as temperature adjusting means. The heat insulating material 13 is provided above the injection nozzle 8 and the heating cylinder 7, and thereby, above the fixed die plate 1 (more specifically, fixed above the injection nozzle 8 and the heating cylinder 7. The temperature difference between the temperature of the die plate 1 portion and the temperature below the fixed die plate 1 (more specifically, the portion of the fixed die plate 1 positioned below the injection nozzle 8 and the heating cylinder 7) does not increase. Suppress it.

  According to the injection molding machine of the first embodiment as described above, if the high heat of the injection nozzle 8 and the heating cylinder 7 is transmitted to the fixed die plate 1 during the molding of the molded body, the fixed die plate 1 is The portion located above the injection nozzle 8 and the heating cylinder 7 tends to be hotter than the portion located below the injection nozzle 8 and the heating cylinder 7. In the first embodiment, the molded body is molded. Since the temperature adjusting means for preventing the heat transmitted to the upper side of the fixed die plate 1 is provided, the temperature difference between the upper and lower sides of the fixed die plate 1 can be adjusted so as not to increase. Therefore, it becomes possible to suppress the difference in expansion between the upper and lower sides of the fixed die plate 1, the parallelism of the fixed mold 2 with respect to the movable mold 4 can be ensured with high accuracy, and as a result, the molded body to be molded Quality can be improved.

  Further, during the molding, the injection nozzle 8 and the heating cylinder 7 are formed in such a manner that the injection nozzle 8 and the heating cylinder 7 are opened in the horizontal direction so that the injection nozzle 8 touches the fixed mold 2. Since the heat insulating material 13 is provided on the upper inner wall surface of the injection nozzle insertion hole 12 as a temperature adjusting means positioned above the injection nozzle 8 and the heating cylinder 7 when inserted in the heat insulating material 13, the heat insulating material 13 Thus, it is possible to suppress an increase in the temperature of the portion of the fixed die plate 1 located above the injection nozzle 8 and the heating cylinder 7 and to prevent the temperature difference between the upper and lower portions of the fixed die plate 1 from increasing. Therefore, it becomes possible to suppress the difference in expansion between the fixed die plate 1 and the parallel die of the fixed mold 2 with respect to the movable mold 4 with high accuracy.

  As mentioned above, although Example 1 was explained in full detail, this invention is not limited to the said Example 1, Various deformation | transformation implementation is possible within the range of the summary of this invention. In the first embodiment, the temperature difference between the upper and lower sides of the fixed die plate 1 does not increase by providing the heat-insulating material 13 as a temperature adjusting means for preventing heat transmitted to the upper side of the fixed die plate 1 during the forming of the molded body. However, when adjusting the temperature above and below the fixed die plate 1 to be uniform, the heat insulating material 13 is not necessarily provided. For example, as shown in FIG. 8 and a heating cylinder 7, and a heating device such as a heating heat pipe 14 that circulates a heating fluid is provided as a temperature adjusting means, and below the injection nozzle 8 and the heating cylinder 7. May be adjusted so that the upper and lower temperatures of the fixed die plate 1 become uniform. In this case, as shown in FIG. 3, a sensor 15 for detecting the temperature of the portion of the fixed die plate 1 located above the injection nozzle 8 and the heating cylinder 7 is provided and detected by the sensor 15. If the temperature of the heated fluid circulated in the heating heat pipe 14 is adjusted so as to be the same as the temperature, and the temperature of the portion of the fixed die plate 1 located below the injection nozzle 8 and the heating cylinder 7 is adjusted. Good.

  FIG. 4 shows the second embodiment. In the second embodiment, a heat radiating fan 16 is applied instead of the heat insulating material 13 of the first embodiment, and the rest of the configuration is the same as that of the first embodiment. Therefore, the same portions are denoted by the same reference numerals, detailed description thereof will be omitted, and differences will be described below.

  As shown in FIG. 4, the heat radiating fan 16 as temperature adjusting means is located near the injection nozzle insertion hole 12 of the fixed die plate 1 and above the injection nozzle 8 and the heating cylinder 7. 1 is provided. Accordingly, when the heat radiating fan 16 is driven during the molding of the molded body, the gas in the injection nozzle insertion hole 12 is discharged to the outside, so that the fixed die plate 1 positioned above the injection nozzle 8 and the heating cylinder 7 is discharged. As in Example 1, the temperature difference between the upper part and the lower part of the fixed die plate 1 can be suppressed so as not to increase during molding.

  FIG. 5 shows a third embodiment. In the third embodiment, the heat insulating material 13 of the first embodiment and the heat dissipating fan 16 of the second embodiment are provided. Therefore, the same parts are denoted by the same reference numerals, and detailed description thereof will be omitted below.

  According to the third embodiment, since the heat adjusting material 13 and the heat radiating fan 16 are provided as temperature adjusting means, a synergistic effect of these is combined, and a temperature difference between the upper side and the lower side of the fixed die plate 1 during molding. Can be effectively suppressed so as not to increase.

  FIG. 6 shows a fourth embodiment. In the fourth embodiment, instead of the heat insulating material 13 of the first embodiment, a cooling heat pipe that circulates a cooling fluid having a temperature lower than that of the injection nozzle 8 and the heating cylinder 7. 17 is applied, and the other parts have the same structure as that of the first embodiment. Therefore, the same portions are denoted by the same reference numerals, detailed description thereof will be omitted, and differences will be described below. explain.

  As shown in FIG. 6, the cooling heat pipe 17 as the temperature adjusting means of the fourth embodiment is substantially L-shaped, and the horizontal portion 17 a is made to lie over the upper inner wall surface of the injection nozzle insertion hole 12. The vertical portion 17b, which is disposed and extends upward from one end of the horizontal portion 17a, is disposed so as to extend over the portion of the fixed die plate 1 above the injection nozzle 8 and the heating cylinder 7, and the injection nozzle Exposed 8 to the outside of the insertion hole 12. In the case of such a configuration, the temperature difference between the upper side and the lower side of the fixed die plate 1 does not increase by adopting a coolant liquid such as cooling water as the cooling fluid circulated in the cooling heat pipe 17. It can be suppressed.

DESCRIPTION OF SYMBOLS 1 Fixed die plate 2 Fixed mold 3 Movable die plate 4 Movable mold 5 Injection unit 6 Heat insulation type plate 7 Heating cylinder 8 Injection nozzle 9 Heating cylinder mounting bracket 10 Unit base 11 Drive mechanism 12 Injection nozzle insertion hole 13 Thermal insulation (temperature) Adjustment means)
14 Heat pipe for heating (temperature adjustment means)
15 Sensor 16 Radiation fan (temperature adjustment means)
17 Heat pipe for cooling (temperature adjustment means)
17a Horizontal part 17b Vertical part

Claims (3)

A fixed die plate on which a movable mold and a fixed mold to be opened and closed are mounted;
An injection nozzle that is nozzle-touched to the fixed mold;
A heating cylinder to which the injection nozzle is mounted,
An injection molding machine in which the injection nozzle and the heating cylinder, which can be at a high temperature when forming a molded body, are disposed in the vicinity of the fixed die plate to which the fixed mold is mounted,
The fixed die plate on which the fixed mold is mounted is positioned above the injection nozzle and the heating cylinder, or below the injection nozzle and the heating cylinder to adjust the temperature. An injection molding machine provided with a temperature adjusting means. When forming the molded body, when the injection nozzle is touched to the fixed mold, the injection nozzle and the heating nozzle are inserted in the injection nozzle insertion holes in the lateral direction, and the fixed die is formed. Forming on the plate,
2. The injection molding machine according to claim 1, wherein a heat insulating material is provided on an upper inner wall surface of the injection nozzle insertion hole as the temperature adjusting means positioned above the injection nozzle and the heating cylinder.   As the temperature adjusting means positioned above the injection nozzle and the heating cylinder, a heat dissipating fan for discharging the gas between the heat insulating material and the injection nozzle and the heating cylinder to the outside is provided. The injection molding machine according to claim 2.

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