KR100772425B1 - Resin molding machine - Google Patents

Abstract

The present invention relates to a resin molding machine for forming a mold mechanism on both sides of the manifold plate to inject both sides; The ejection-molded resin is taken out by operating the respective ejection plates 16 through the upper and lower plates 12 and 14 formed at both sides of the manifold plate 11, and the manifold plate is formed by the support means. 11) and the body portion 10 to which the upper plate 12 is fixed; Is connected to the upper plate 12 of the body portion 10 while supplying or returning the steam or cooling water of the fluid reservoir in the opening and closing process of the valve to inject the fluid required for temperature control of the upper and lower plates (12,14) Fluid supply unit 20; The transfer unit is mounted on the upper side of the body portion 10 and lifts and ejects the ejected product taken out by the take-out plate 16 while reciprocating along the rail 31 and mounted on the conveyor belt 35 to be transferred to the post-treatment process. 30 and; In response to the closing signals of the upper and lower plates 12 and 14, an operation signal is transmitted to the cylinders configured in the body part 10, the valves configured in the fluid supply part 20, and the electrical components configured in the transfer part 30. A control unit 40 for outputting; Even if the stack mold facility is not changed, the process of forming high gloss injection molding is automated and productivity is maximized.

Description

Resin injection molding machine

1 is a front view showing a resin molding machine according to the present invention,

Figure 2 is a perspective view showing a fluid supply device of the resin molding machine according to the present invention,

3 (a) to (d) is a front view showing the operation of the resin molding machine according to the present invention,

4 is an internal structural view showing a resin molding machine according to the present invention.

Explanation of symbols on the main parts of the drawings

10 body portion 11: manifold plate

12: Senate 13: Cylinder

14: lower plate 15: cam mechanism

16: outlet plate 20: fluid supply unit

30 transfer unit 31 rail

34: lifting arm 40: control unit

The present invention relates to a resin molding machine for forming a mold mechanism on both sides of the manifold plate to inject two sides, and in particular, to configure the automation mechanism including a fluid supply device in the stack mold to automate the work process according to the molding of the resin The present invention relates to a resin molding machine capable of maximizing productivity.

In general, a stack mold is a type of precision mold that is composed of a plurality of mold mechanisms and injection molds on both sides, and the stack molds are reciprocated by cylinders on both sides of the manifold plate. And a take-out plate reciprocated by the cam mechanism is provided to continuously produce the injection molding.

Therefore, in order to take out the injection-molded product of the stack mold, the cam mechanism and the cylinder are operated to open the mold, and the injection-molded product by the upper and lower plates is taken out through the take-out plate, and when the extraction of the injection-molded product is completed, the cam mechanism and the cylinder are It works to close the mold and inject the resin between the upper and lower plates.

However, in the case of injection molding a high-gloss product without a weld line by the stack mold, a post-treatment operation is performed by using a gloss mechanism such as a steam injection device while transferring the injection-molded injection to a separate place. There is a problem that productivity is reduced due to an increase in the number of work processes and loads.

Moreover, the cycle time due to temperature control such as rapid heating and cooling of the mold during the operation of the stack mold is not only reduced, but also the high gloss injection is damaged during the transportation of the injection or during the surface treatment of the injection. There was a risk of losing value.

Thus, the present invention has been made to solve the problems described above, to configure the automation mechanism including the fluid supply device in the stack mold to automate the work process according to the molding of the resin, as well as to maximize the productivity It is an object to provide one resin molding machine.

The present invention for achieving the above object, the injection molded resin material through the upper / lower plates formed on both sides of the manifold plate through the respective take-out plate as well as the manifold plate and the upper house by the support means A body portion to which the plate is fixed; A fluid supply unit connected to the upper plate of the body to supply or return steam or cooling water of the fluid reservoir during opening and closing of the valve to inject a fluid required for temperature control of the upper and lower plates; A transfer part mounted on the upper side of the body part to lift and eject the ejected material taken out by the take-out plate while reciprocating along the rail, and to be mounted on a conveyor belt and transferred to a post-treatment process; It is characterized in that the configuration consisting of a control unit for receiving the closing signal of the upper / lower plate to output the operation signal to the cylinders configured in the body portion, the valves configured in the fluid supply unit and the electrical equipment configured in the transfer unit.

Hereinafter, an embodiment according to the present invention will be described.

1 to 4 are views illustrating the operation of the resin molding machine, the fluid supply device, and the resin molding machine according to the present invention, and the internal structure of the resin molding machine.

As shown in these figures, the injection-molded resin through the upper and lower plates 12 and 14 formed on both sides of the manifold plate 11 is operated to take out each of the ejection plates 16 as well. A body portion 10 to which the manifold plate 11 and the upper plate 12 are fixed by supporting means; Is connected to the upper plate 12 of the body portion 10 while supplying or returning the steam or cooling water of the fluid reservoir in the opening and closing process of the valve to inject the fluid required for temperature control of the upper and lower plates (12,14) Fluid supply unit 20; The transfer unit is mounted on the upper side of the body portion 10 and lifts and ejects the ejected product taken out by the take-out plate 16 while reciprocating along the rail 31 and mounted on the conveyor belt 35 to be transferred to the post-treatment process. 30 and; In response to the closing signals of the upper and lower plates 12 and 14, an operation signal is transmitted to the cylinders configured in the body part 10, the valves configured in the fluid supply part 20, and the electrical components configured in the transfer part 30. It consists of the control part 40 which outputs.

Here, as shown in Figure 1, the body portion 10, which is to perform the injection work of the resin while supporting the load of the resin molding machine as a whole, a plurality of support rods mounted along the horizontal direction based on the bottom surface (17), to the manifold plate (11) attached to the center of the support bar (17), to the upper plate (12) attached to both side portions of the manifold plate (11), and the upper plate (12). The lower plate 14, which is mounted at a certain distance and reciprocates during the operation of the cylinder 13, is attached to the outer wall of the lower plate 14 to form an injection molded product by the upper / lower plates 12 and 14. The takeout plate 16 to be taken out in one direction and the outer wall of the manifold plate 11 and the takeout plate 16 is hingedly coupled to operate the takeout plate 16 during the movement of the lower plate 14 It consists of a cam mechanism 15 which draws out an injection molded product.

At this time, the lower plate 14 and the extraction plate 16 is described as limited to the operation by the cylinder 13 and the cam mechanism 15, but is formed by the upper plate 12 and the lower plate 14 If the injection molded product is a structure which is taken out by the operation of the extraction plate 16, it is natural that the configuration of all devices is included in the technical category of the present application.

In addition, the support means of the body portion 10, as shown in Figure 4, the moving table 18-1 and the body portion 10 is mounted. A plurality of guide blocks (18-2) mounted along the horizontal direction on the outer wall of the body portion 10, and guide pins (19-1) and the stroke control mounted on the inner wall of the body portion 10 in a diagonal direction It consists of a rod 19-2.

Therefore, the middle plate (manifold plate + upper plate) is primarily supported by the guide block 18-2 and secondly by the guide pin 19-1 and the stroke adjusting rod 19-2, and finally the moving It is supported by the table 18-1.

In particular, the guide pin 19-1 performs an additional function of supporting the load of the middle plate together with the basic role of guiding the mold.

In addition, the stroke adjustment bar 19-2 is to perform a multi-function to prevent the load bearing and mold opening operation of the middle plate in addition to the function of the return pin which is a basic role does not exceed the specified distance value.

And, as shown in Figure 2, the fluid supply unit 20 is mounted on the upper side of the body portion 10 to selectively supply steam or cooling water required for temperature control of the upper and lower plates 12 and 14, One end thereof is connected to a boiler (not shown) or a cooling tank (not shown), and the other end thereof is connected to an inlet of the upper plate 12.

In this case, the fluid supply unit 20 is installed on the upper side of the body part 10, but the discharge port of the fluid supply unit 20 and the inlet port of the upper plate 12 are installed wherever. Of course it is possible.

In addition, the fluid supply unit 20 is configured to separately supply the supply pipe and the return pipe of the steam and the supply pipe and the return pipe of the cooling water, respectively, it is preferable to maximize the various efficiency according to the circulation of the steam or cooling water.

In addition, it is preferable that the fluid supply part 20 selects the material excellent in corrosiveness like stainless steel as the material.

In addition, the fluid supply unit 20 is equipped with a plurality of valves (not shown) for selectively supplying or blocking the fluid to the flow passage.

In addition, the transfer part 30 is for transferring the injection molded product formed by the body part 10 to a post-treatment process, and includes a support (reciprocating along the rail 31 mounted on the upper side of the body part 10). 32 and a lifting arm 34 attached to the lower side of the support 32 to hold the injection-molded material during the operation of the cylinder 33.

At this time, it is preferable to use a locking mechanism or a suction means as the holding means of the lifting arm 34, but is not limited thereto.

In addition, the conveyer 30 includes a conveyor belt (not shown) for mounting the injection product, the runner, and the gate, which is carried by the lifting arm 34, and in particular, in the case of the runner and the gate mounted on the conveyor belt, the surface of the injection product. It is preferable to apply the time difference to transfer to the post-treatment process so as not to damage.

The controller 40 is configured to sequentially operate the components of the resin molding machine 1 according to a setting order, and receives the closing signals of the upper and lower plates 12 and 14 to receive the body part 10. And outputs an operation signal to a cylinder, a valve, or various electrical components configured in the fluid supply unit 20 and the transfer unit 30.

In this case, the controller 40 has been described as being limited to operating according to the closing signals of the upper and lower plates 12 and 14, but in addition, a sensor may be installed in the operating path of the cylinder 13 to detect the lifting arm. It may be detected by installing a sensor in the lifting path of (34), or by installing a temperature sensor on the upper plate 12, in particular, may set the operating time according to the material and time of the injection.

Hereinafter, the operation according to the present invention will be described.

First, as shown in FIG. 3A, when the mold of the resin molding machine 1 is closed, the control unit 40 outputs an open signal to the valve of the fluid supply unit 20, so that steam of the boiler is supplied to the upper plate 12. Cavity holding of the cavity is done.

At the same time. Since the control unit 40 outputs an open signal to the valve (not shown) of the resin feeder (not shown), the resin material being filled from the nozzle of the resin feeder is filled into the cavity space.

Subsequently, when the filling and filling operation of the cavity is completed, the control unit 40 outputs an opening signal to the valve of the fluid supply unit 20, and thus the cavity is cooled by the cooling water supplied by the cooling tank (not shown). The molding work of the injection molding having the desired shape is completed by the / lower plates 12 and 14.

Subsequently, as shown in FIG. 3B, when the molding operation of the resin molding machine 1 is completed, the movable side of the mold is retracted by the signal of the controller 40, so that the lower plate 14 and the blowout plate 16 are opened. Open mold opening is done.

At this time, as shown in FIG. 3C, when the movable side of the resin molding machine 1 retreats, the two lower plates 14 and the two ejection plates 16 are simultaneously at the same speed by the rotation of the cam mechanism 15. As far apart as the injection molding (M) protrudes.

Subsequently, as shown in FIG. 3D, when the mold opening operation of the resin molding machine 1 is completed, the lifting arm 34 which receives the setting signal of the control unit 40 descends to lift the injection product M, the runner, and the gate. Carry out the withdrawal work.

At this time, since the runner and the gate of the object lifted by the transfer unit 30 may damage the surface of the injection molded product, the runner and the gate are dropped on the conveyor belt (not shown), and then the time difference is applied to the post-treatment process.

Subsequently, when the resin arm drawing operation of the resin molding machine 1 is completed and the lifting arm 34 is pulled out, the movable side receiving the signal of the control unit 40 is advanced, so that the resin molding machine 1 is shown in FIG. 3A. The mold will be closed.

Subsequently, when the mold of the resin molding machine 1 is closed, the pressure holding operation of the cavity is performed by the boiler of the fluid supply unit 20, and at the same time, the filling operation of the resin material is performed by the resin feeder and the above cycle is repeated.

As described above, according to the resin molding machine according to the present invention, since the injection molding is performed by using an automation mechanism including a fluid supply unit configured in the stack mold, two high gloss per cycle even without changing the stack mold facility. Not only is it possible to manufacture a molded article, but also various work loads and the number of work processes according to the molding of high gloss injection molding are minimized, thereby maximizing product competitiveness.

Claims (3)

As a resin molding machine for automating the process according to the heating and cooling of the stack mold as well as the withdrawal and transfer of the resin, The ejection-molded resin is taken out by operating the respective ejection plates 16 through the upper and lower plates 12 and 14 formed at both sides of the manifold plate 11, and the manifold plate is formed by the support means. 11) and the body portion 10 to which the upper plate 12 is fixed; Is connected to the upper plate 12 of the body portion 10 while supplying or returning the steam or cooling water of the fluid reservoir in the opening and closing process of the valve to inject the fluid required for temperature control of the upper and lower plates (12,14) Fluid supply unit 20; The transfer unit is mounted on the upper side of the body portion 10 and lifts and ejects the ejected product taken out by the take-out plate 16 while reciprocating along the rail 31 and mounted on the conveyor belt 35 to be transferred to the post-treatment process. 30 and; In response to the closing signals of the upper and lower plates 12 and 14, an operation signal is transmitted to the cylinders configured in the body part 10, the valves configured in the fluid supply part 20, and the electrical components configured in the transfer part 30. An output to the controller 40; Resin molding machine, characterized in that made. According to claim 1, wherein the support means of the body portion 10, And a moving table 18-1 on which the body portion 10 is mounted. A plurality of guide blocks (18-2) mounted on the outer wall of the body portion 10, and a plurality of guide pins (19-1) and stroke adjustment rods mounted diagonally on the inner wall of the body portion (10) A resin molding machine comprising 19-2). The method of claim 1, wherein the transfer unit 30, And a support arm 32 reciprocating along the mounted rail 31 and a lifting arm 34 mounted on the lower side of the support 32 to lift the injection molding during the operation of the cylinder 33. Resin molding machine.

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