KR101058791B1 - Preform Injection Molding Machine with Preform Cooling System - Google Patents

Abstract

The present invention is equipped with a preform cooling device in the injection molding machine for injection molding the preform, the preform cooling device to take out the preform molded in a predetermined shape from the injection mold to transfer to the cooling device immediately without delay time to cool the preform As a preform injection molding machine provided,

An injection device (1) equipped with an injection mold (2) for injection of preform raw materials, and a transfer device (3) for transporting the preform (P) formed by the injection device (1); , A cooling device 4 for mounting and cooling the conveyed preform P until a predetermined quantity is satisfied, and a transfer apparatus 5 for receiving a predetermined quantity and transferring it to a predetermined position. In the compressor (4) consisting of a compressor (6) and a cooling water supply (7) for generating cooling water and cooling air,

The cooling device 4 has a hollow portion 11 formed therein, and forms a plurality of cooling water circulation holes 12 adjacent to the inner circumferential portion of the hollow portion 11 and circulates 1 to 2 compressed air. It characterized in that the configuration is formed by connecting a plurality of the cooling transfer pipe (10) formed by forming the ball 13 in the vertical and horizontal direction.

Preform, cooling storage device, hollow part, cooling water circulation hole, cooling transfer pipe,

Description

Preform molding machine with preform cooling device

The present invention is equipped with a preform cooling device in the injection molding machine for injection molding the preform, the preform cooling device to take out the preform molded in a predetermined shape from the injection mold and immediately transfer to the cooling device without delay time to cool the preform It relates to a preform injection molding machine provided.

As you may know, preform refers to an article formed of a small "U" shaped tube manufactured in a preliminary step for blow molding PET bottles formed of synthetic resin.

The preform injection-molded in the injection molding machine is manufactured by using polyethylene terephthalate (PET) as a main raw material, and supplied to the blow molding machine to form a PET bottle having a predetermined size to produce a PET bottle. You will get

The injection molding machine for manufacturing the above-mentioned preform is inevitably equipped with a cooling device for cooling the molded preform, and an injection molding machine having a general cooling means is shown in FIG. 1.

 The conventional preform injection molding machine transfers an injection device 101 equipped with an injection mold 102 for receiving preform raw materials and a preform P molded by the injection device 101. The conveying device 103 and the cooling storage device 104 to cool while mounting the conveyed preform (P) until a certain quantity is satisfied, and the transfer to transfer to a predetermined position when it receives a certain quantity Conveyor 105, the cooling device 104 is composed of a cooling water and a compressor 106 for generating a vacuum and a cooling water supply 107.

The above-mentioned conventional preform injection molding machine is molded into a preform P having a certain shape by a conventional injection mold 102 and an injection apparatus 101, and the formed preform P is automatically pre / reversed while being retracted. It is conveyed to the cooling apparatus 104 by the conveying apparatus 103 which draws out (P).

The cooling device 104 is to cool the preform (P) received by the compressed air and the washing water continuously supplied from the compressor 106 and the cooling water supply 107 connected to one side.

The cooling device 104 receives and stores the preform P by a predetermined quantity through the transfer device 103, and when the number of the stored preforms P is loaded in a certain amount, it is dropped to the next conveying conveyor 105 for transportation. It is to let.

The cooling device 104 is a preform mounting stage 104a receiving the preform (P) is mounted on the cooling plate 104b while maintaining a constant interval vertically and horizontally, the interior of the mounting table 104a and the cooling plate ( 104b) has a structure in which cooling water and compressed air are supplied, and the structure is a structure in which supply pipes for supplying cooling water to each preform mounting table 104a are wound in the form of coils. It is manufactured through a process, and the price is quite expensive.

The preform P, which is delivered to the cooling device 104 and stored for a predetermined time, is cooled when a predetermined amount is loaded, and rotates the preform P fitted to the mounting table 104a to the conveying conveyor 105. Drop it and transport it.

Through such a series of processes, all the devices for transferring the preform molded from the preform injection molding machine to the final conveying conveyor are quite complicated and expensive, and there are many difficulties in maintenance and repair due to the complicated structure. will be.

The present invention relates to a cooling apparatus mounted on one side of an injection molding machine for injection molding a preform. The manufacturing process of the cooling apparatus can be reduced by simplifying the cooling process while keeping the preform supplied from the injection molding machine for a predetermined time. Its purpose is to provide a preform injection molding machine that can reduce the production cost and minimize the on-site installation space due to the size reduction by making the structure of the entire preform injection molding machine small and simple by simplifying its structure. .

In addition, another object of the present invention is to simplify the process of delivering the preform to the transfer conveyor after cooling to maximize the cooling efficiency of another object of the present invention.

The present invention for solving the above problems, to receive the preform conveyed by the transfer device to proceed with the cooling, to provide a cooling device to sequentially discharge the preform cooling is completed, the preform received A cooling device for cooling is formed in the form of a pipe to provide a cooling pipe, to store the preform in the hollow portion of the cooling pipe, and to form a passage through which cooling water and compressed air pass through the outer periphery of the hollow portion. One solution is to provide a cooling device.

The present invention having the above-described configuration has the advantage that the structure is extremely simple and the manufacturing cost is low, and by adjusting the length of the cooling pipe, it is possible to manufacture the receiving space of the preform to an optimum length, the blower is the next step It can be produced by appropriately adjusting the receiving time or discharge time of the preform according to the molding process.

The present invention showing such an effect is described in detail below with reference to the accompanying drawings.

An injection device with a built-in injection mold for injection molding preforms by receiving a support fee, a transfer device for receiving and conveying a preform formed by the injection device, and a handover device mounted on the transfer device and taking over the preform to a predetermined position. And a cooling device for cooling the coolant with compressed water while storing the preforms so as not to collide with each other; It is to provide an injection molding system consisting of a cooling water supply and a compressor.

The transfer device provided in the transfer device includes a transfer plate that is lifted and lowered by an air cylinder, and the transfer plate is configured to pass through a coupling hole into which a preform is inserted.

The cooling device includes a cooling water pipe formed by forming a hollow in the center, and forming a cooling water circulation hole for circulating the cooling water along the outer periphery thereof, and a compressed air supply hole in which the compressed air supplied from the compressor is accommodated in the longitudinal direction. It is composed by connecting a number of vertically and horizontally.

The cooling transfer pipe body is provided with a cutout cut to one side, the cutout is configured to push the introduced preform to the rear by mounting a push bar for transferring the preform flows in sequence.

Specific configuration and operation of the present invention configured as described above will be described in more detail with reference to the accompanying drawings.

 An injection apparatus (1) equipped with an injection mold (2) for receiving a raw material of a preform and molding a preform;

A conveying apparatus 3 for conveying a preform molded by the injection apparatus 1,

Cooling apparatus 4 for cooling while mounting the conveyed preform (P) until a certain quantity is satisfied,

A transfer conveyor 5 for supplying the cooled preform P to a designated position;

In the configuration comprising a compressor (6) and a cooling water supply (7) for supplying cooling water and cooling air to the cooling device (4),

A take-over device 20 is further provided to take over from the injection device 3 to the cooling device 4 in the transfer device 3 for receiving and transferring the preform P from the injection device 1,

The cooling device 4,

The hollow conveying body 11 is formed inside, and a plurality of cooling water circulation holes 12 and compressed air supply holes 13 are formed in a longitudinal direction near the inner circumferential portion of the hollow part 11. 10) is formed by connecting a plurality of vertically and horizontally.

The cooling water circulation hole 12 has an inlet 17 and an outlet 18 are formed at the inlet and the distal end, respectively, the inlet 17 is connected to the coolant supply (7), the outlet 18 is another cooling transfer It is connected to the inlet 17 'of the cooling water circulation hole 12' formed in the tubular body 10 'and the connection elbow (L).

The compressed air supply hole (13) forms a compressed air inlet (13a) flowing from the outside of the cooling transfer pipe (10) is connected to the compressor (6), the compressed air discharge hole (13b) is the cooling transfer pipe ( One or more compressed air discharge holes 13b are spaced apart at regular intervals so as to spray compressed air toward the hollow portion 11 of 10).

The cooling transfer pipe 10 connected in the longitudinal and horizontal direction is connected and mounted so as to match the number of preforms P injection-molded by the preform injection device 1.

One side of the cooling transfer pipe 10 is formed to form a cutout portion 14 connected to the hollow part 11 therein, and the cutout portion 14 has a cooling transfer pipe body 10 through a take over device 20. Conveyor 15 separately installed at the lower end of the notch 14, and a plurality of sequentially moving to the upper end of the conveyor 15 so as to transfer a predetermined quantity of the preform (P) turned over by a constant speed) Install and install the push bar 16 in a state spaced apart at regular intervals.

One preform P is positioned between the two push bars 16 installed before and after the above, and is sequentially transferred by the push bar 16 step by step.

A discharging pipe 19 having a smooth curved surface is connected to the distal end of the cooling transfer pipe body 10, and the discharge pipe 19 is mounted to face the upper surface of the conveying conveyor 40, and the hollow portion of the cooling transfer pipe body 10 is provided. Preforms (P) sequentially transported in (11) are freely dropped and transferred to the storage box through the transfer conveyor (5).

The transfer device 3 has a plurality of distribution pipes for distributing compressed air inside the plate 31, and the drawing pipe 32 having a preform coupling hole 34 in the center thereof is spaced apart at regular intervals vertically and horizontally. To be installed.

The number of the outlet pipes 32 is configured in the same arrangement as the arrangement of the preform P injection molded in the injection device (1).

The take-over device 20 is mounted to the transfer plate 21 by the air cylinder 22 to operate forward and backward to be in close contact with the tip of the outlet pipe 32 installed in the transfer device 3,

The transfer plate 21 is configured by vertically and horizontally forming the coupling holes 23 having the same number as the number of the drawing pipes 32 mounted on the transfer device 3.

In the present invention configured as described above, the preform P injection-molded in the preform injection device 1 is received by the transfer device 3 and transferred to the cooling device 4.

That is, when the preform P is injection molded in the injection device 1, the transfer device 3 operates to move to the lower part of the preform P, and then the transfer device 3 moves to the lower end of the preform P. Is inserted into the withdrawal pipe (32) mounted on the plate (31) to return to its original position.

In the state in which the preform P is coupled, the transfer device 3 moves backward and stops at the lower end of the cooling device 4.

When the transfer device 3 stops at the lower end of the cooling device 4, the take over device 20 is operated. The transfer plate 21 constituting the take over device 20 is operated by the operation of the air cylinder 22. When the ascension starts, the preform P inserted into the coupling hole 23 of the outlet pipe 32 and the transfer plate 21 is pushed up and turned over to the hollow portion 11 of the cooling transfer pipe 10, and the air cylinder (22) is retracted and the conveying plate 21 is reversed to return to its original position.

When the preform P forcibly transferred by the transfer plate 21 remains in the cooling transfer pipe 10, the preform P is sequentially moved by the push bar 16 provided at one cutout 14 of the cooling transfer pipe 10. To the inside of the cooling transfer pipe (10).

The preform P entering the cooling transfer tube 10 by the repeated transfer of the preform P of the transfer device 3 and the take over device 20 is the inner circumferential edge of the hollow part 11 of the cooling transfer tube 10. It is cooled by the cooling water supplied to the cooling water circulation hole 12 formed as a wrap.

The preform P injected into the cooling transfer pipe 10 is sequentially loaded on the hollow part 11 by the transfer transfer action of the repetitive preform P of the transfer device 3 and the take over device 20, and is loaded. The preform P is pushed backward by the push bar 16, and the preform P is pushed backward by the push bar 16 at the beginning of the cooling transfer pipe 10 to discharge the discharge pipe 19. Since the cooling proceeds to the moment falling to the conveying conveyor 40 through it will be able to discharge the sufficiently cooled preform (P).

In the present invention, the stepped conveying means of the preform (P) by the push bar 16 installed in the cutout portion 14 of the cooling transfer pipe body 10 may be provided in various ways.

That is, a pair of sprockets and a chain coupled to the sprocket, means for mounting a push bar to the chain at regular intervals, by rotating the sprocket by a predetermined amount to move the preform sequentially,

After the push bar is mounted on the conveyor belt at regular intervals, the push bar may be mounted so as to enter the cutout portion of the cooling transfer pipe to transfer the preform.

Means for sequentially transferring the preform (P) in the cooling transfer pipe 10 may be provided in various embodiments through various design changes in addition to the above-described means.

The take over device 20 is equipped with a transfer pin 35 which is inserted into the preform coupling hole 34 of the drawing pipe 32 vertically and horizontally installed on the plate 31 as shown in FIG. The transfer pin 35 may be configured to operate forward and backward by the air cylinder 37.

The transfer pins 35 coupled to each of the outlet pipes 32 are mounted on one fixed plate 36 so that they can be lifted and operated simultaneously.

The take over device having such a structure is such that the transfer pin 35 inserted into the preform coupling hole 34 of the lead-out pipe 32 pushes the preform P to the hollow 11 of the cooling transfer pipe body 10. .

Further, a compressed air injection hole for injecting compressed air is formed in a lower portion of the outlet pipe 32 of the transfer device 3, and a compressor is connected to the compressed air injection hole to form a preform ( P) can be configured to be forcibly inserted into the hollow portion 11 of the cooling transfer pipe (10).

1 is a schematic view of a conventional preform molding apparatus

Figure 2 is a schematic diagram showing the overall configuration of the present invention

Figure 3 is a side view showing a cooling device connected state of the present invention

Figure 4 is a perspective view of the cooling transfer pipe applied to the cooling device of the present invention

Figure 5 is a cross-sectional view of the cooling transfer pipe applied to the present invention

Figure 6 is a schematic diagram showing another take over device of the present invention

[Description of Drawings]

1: Injection device 2: Injection mold

3: feeder 4: cooler

5: conveying conveyor 6: compressor

7: cooling water supply 10: cooling transfer pipe

11: hollow part 12: cooling water circulation hole

13: compressed air circulation hole 14: cutout

15: Conveyor 16: Push Bar

20: take over device 21: transfer plate

22: air cylinder 23: coupling hole

Claims (5)

An injection apparatus (1) equipped with an injection mold (2) for receiving a raw material of a preform and molding a preform (P), A conveying apparatus 3 for conveying the preform P formed by the injection apparatus 1, Cooling apparatus 4 for cooling while mounting the conveyed preform (P) until a certain quantity is satisfied, Consists of a conveying conveyor (5) for supplying the cooled preform (P) to a designated position, Cooling water supply unit 7 for supplying cooling water to the cooling device 4 is provided, A take-over device 20 is further provided to take over from the injection device 3 to the cooling device 4 in the transfer device 3 for receiving and transferring the preform P from the injection device 1, The cooling device 4 has a hollow portion 11 formed therein, and a plurality of cooling water circulation holes 12 and compressed air circulation holes 13 in a lengthwise direction close to the inner circumference of the hollow portion 11. Preform injection molding machine equipped with a preform cooling device, characterized in that formed by connecting a plurality of the cooling transfer pipe (10) formed in the vertical and horizontal configuration. The method of claim 1, The cooling transfer pipe 10 is formed in the inlet 17 and the outlet 18 in the cooling water circulation hole 12, respectively, the inlet and the distal end, the inlet 17 to the other cooling transfer pipe (10 ') It is connected to the cooling water supply (7) by connecting to each of the inlet (17 ') and the connection elbow 20 of the formed cooling water circulation hole (12'), The compressed air circulation hole 13 is formed with a compressed air inlet (13a) is connected to the compressor (6), the compressed air discharge hole (13b) is compressed toward the hollow portion 11 of the cooling transfer pipe (10) Preform injection molding machine equipped with a preform cooling device, characterized in that one or more compressed air discharge holes (13b) are spaced at regular intervals so as to inject air. The method of claim 1, One side of the cooling transfer pipe 10 is formed to form a cutout portion 14 connected to the hollow part 11 therein, and the cutout portion 14 has a cooling transfer pipe body 10 through a take over device 20. Conveyor 15 separately installed at the lower end of the notch 14, and a plurality of sequentially moving to the upper end of the conveyor 15 so as to transfer a predetermined quantity of the preform (P) turned over by a constant speed) Preform injection molding machine equipped with a preform cooling device, characterized in that the push bar 16 is installed and mounted at a predetermined interval apart. The method of claim 1, The take-up device 20 is configured to pass through the transfer plate 21 formed by vertically and horizontally forming the same number of coupling holes 23 as the number of the take-out pipes 32 mounted on the transfer device 3. 32. A preform injection molding machine equipped with a preform cooling device, characterized in that it is mounted so as to be in close contact with the tip of 32) and configured to operate forward and backward by the air cylinder 22. The method of claim 1, The take over device is equipped with a transfer pin 35 is inserted into the preform coupling hole 34 of the outlet pipe 32 provided in the transfer device 3, the transfer pin 35 is provided to the air cylinder 37 Preform injection molding machine equipped with a preform cooling device, characterized in that configured to operate forward, backward.

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