JPS6134091Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION This invention relates to a temperature control device for a mold of an injection molding machine, and particularly to a heat retention device for a mold.

The temperature of the mold of an injection molding machine directly affects the quality of the molded product and is closely related to molding efficiency, and is one of the most important control objectives in injection molding, and precise control is always desired.

The easiest way to adjust mold temperature is
This is a method of cooling water by directly passing it through the cooling port of the mold, such as tap water or well water, but with this method it is difficult to maintain a constant temperature of the supplied water, and it also raises the mold temperature above a certain limit. It is not possible.

To maintain the mold temperature between 30 and 90°C, a mold temperature controller is used that heats water and circulates it with a pump, but if higher temperatures are required, ethylene glycol or oil is used. A system that heats and circulates the water is used.

In addition, the type of resin to be molded and the shape of the product,
If you want to keep the mold temperature particularly low due to wall thickness,
A mold cooling member is used that is equipped with a refrigeration device and can circulate cooling water at a low temperature. However, since the molding surface of the mold changes greatly depending on the surrounding atmosphere, it is necessarily desired that the atmosphere around the mold is stable.

Therefore, the inventors solved the cause of unstable molded product quality and made repeated improvements to prototypes in order to obtain high-quality molded products.As a result, they created air insulation around the mold of an injection molding machine. It was discovered that by forming a film, it was possible to stabilize the mold surface without causing disturbances due to the atmosphere.

Therefore, the general object of this invention is to provide a mold temperature control device that can eliminate the influence of the external atmosphere and stabilize the temperature control of the mold.

In order to achieve the above object, the mold temperature control device according to this invention has a film-like structure around the fixed mold fixed to the fixed die plate of the injection molding machine and the movable mold fixed to the movable die plate. It is characterized by providing an air curtain device that forms an air layer.

An air curtain device that forms a film-like air layer around a stationary die plate and a movable die plate includes an air flow generator attached to a fixed die plate or a moving die plate and an air flow generator attached to a moving die plate or a fixed die plate. It consists of a membrane airflow suction device.

The air flow generating device includes an air release fan device disposed at the outer peripheral end of the fixed die plate or the movable die plate, and one end connected to the air release fan and arranged along the outer periphery of the fixed die plate or the movable die plate. It consists of an air release slit provided,
On the other hand, the air flow suction device includes an intake fan device disposed at the outer peripheral end of the movable die plate or the fixed die plate, and an intake fan device whose one end is connected to the intake fan and provided around each of the movable die plate or the fixed die plate. It consists of a slit.

Furthermore, the air release slits may be provided along each outer circumferential edge of the inner surface of the fixed die plate or the stationary die plate, while the air intake slits may be provided along each outer circumferential edge of the inner surface of the movable die plate or the fixed die plate. good. In addition, each of the air outlet slits provided at the periphery of the stationary die plate or the movable die plate can be provided with an air flow deflection grid to direct the emitted air in a film-like manner toward the intake slit.

The foregoing objects and other objects and advantages of the invention will become more apparent from the following description.

Next, a preferred embodiment of the mold temperature control device according to the invention will be described below with reference to the accompanying drawings.

In FIG. 1, a fixed die plate 16 is fixed to a bed (not shown), and has a fixed die 12 on one side A and a sprue 14 on the other side. is attached to the fixed die plate 16, and serves as a guide rod when the movable die plate 20 slides forward and backward under the action of a movable cylinder (not shown), and also serves as a guide rod to balance the mold clamping force during mold clamping. We aim to In addition, the fixed die plate 1 of the movable die plate 20
A movable mold 18 is removably set on one side facing the fixed mold 12 attached to the fixed die plate 16.

At the periphery or each periphery of the fixed die plate 16, an air discharge slit 24 with an air flow deflecting grid 22 is installed, which is connected to an air flow generating fan device 17 arranged at the corner of the fixed die plate 16. do. Similarly, air flow suction slits 26 are attached to the periphery or each periphery of the moving die plate 20 and connected to suction fan devices 21 mounted at the corners of the moving die plate 20.

In the embodiment shown in FIG. 2, air outlet slits 24 are provided along each inner edge of stationary die plate 16, while inlet slits 26 are provided along each inner edge of moving die plate 20. provided. In order not to impair the mold clamping action, both the air release slit and the intake slit are provided on the outer periphery 28 of the plate, which is stepped from the mold clamping surface.

As the air flow generated by operating the air flow generator exits each air discharge slit 24,
Under the action of the airflow deflection grid 22, the airflow is directed in the direction of the air intake slot 26 in the form of a membrane and the mold 1
An air curtain is formed that completely blocks the surrounding areas of the molds 12 and 18 from the outside atmosphere, and as a result, the molds 12 and 18
is maintained at a stable temperature. The switching control operations of the air flow generator and the air flow suction device may be synchronized with the mold clamping operation or with the mold temperature control operation.

According to the mold temperature control device according to this invention, it is possible to completely isolate the mold from the outside atmosphere with a relatively simple configuration, and therefore the mold is always maintained at a stable temperature control state. That will be understood.

Although preferred embodiments of the mold temperature control device according to the invention have been described above, the invention is not limited to these embodiments, and various design changes can be made without departing from the purpose and spirit of the invention. Of course.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a mold temperature control device according to this invention, and FIG. 2 is a perspective view showing another embodiment. 10... Tie bar, 12... Fixed mold, 14...
...Sprue, 16...Fixed die plate, 17...
...Airflow generation fan device, 18...Movable mold, 20
. . . moving die plate, 21 . . . suction fan device, 22 . . . air flow deflection grid, 24 .

Claims (1)

[Claims for Utility Model Registration] (1) A film-like air layer is formed around the mold for an injection molding machine, which consists of a fixed mold fixed to a fixed die plate and a movable mold fixed to a movable die plate. A mold temperature control device comprising an air curtain device for forming a mold. (2) In the mold temperature control device set forth in claim 1 of the utility model registration claim, the air curtain device that forms a film-like air layer around the fixed die plate and the movable die plate is a stationary die plate or a movable die plate. A mold temperature control device consisting of an airflow generator attached to a die plate and a membrane airflow suction device attached to a moving die plate or a fixed die plate. (3) In the mold temperature control device according to claim 2 of the utility model registration claim, the airflow generating device includes an airflow fan device disposed at a corner of a fixed die plate or a movable die plate, and and an air release slit connected at one end and provided along each outer periphery or inner peripheral edge of the fixed or movable die plate, while the air flow suction device is connected to the movable or movable die plate. A metal plate consisting of an intake fan device disposed at a corner and an intake slit connected at one end to the intake fan and provided along each peripheral edge of the movable die plate or the fixed die plate or along each outer peripheral edge of the inner surface. Mold temperature control device. (4) Utility model registration The mold temperature control device according to claim 3, which comprises providing an air flow deflection grid in each air release slit.