KR100712710B1 - Mold apparatus for molding breeding float and molding process of breeding float using the same - Google Patents

Abstract

The present invention relates to a molding apparatus for aquaculture floats, and a method for forming aquaculture floats using the same, wherein an air inlet is not a float body in the process of manufacturing aquaculture floats by extrusion molding using synthetic resin as a raw material. And the air inlet is automatically filled and closed so that the secondary work of sealing the air inlet by using a separate cap after molding is not required, thereby significantly improving productivity and workability. At the same time, workers are not injured when handling the floats.

The present invention comprises a stationary mold and a transfer mold, the apparatus for forming a mold for aquaculture by blowing compressed air into a tubular parison located between the stationary mold and the transport mold, the stationary mold On the opposite side of the transfer mold, a cavity having a predetermined depth consisting of the sub-body part and the ring part is symmetrically formed in accordance with the shape of the culture-type sub-ball, and the lower edge side of the ring part connected to the sub-body part has a cavity An air inlet is formed so that the air supply pipe can be inserted into the parison corresponding to the secondary body part, and the fixed mold and the transfer mold corresponding to the direction orthogonal to the direction of formation of the air inlet are the outer side of the ring part. Guide holes of a predetermined diameter reaching the side surface are formed, and each of the guide holes is provided by hydraulic or pneumatic pressure. W by the action of the cylinders is operated while moving the pair of straight characterized milpin that at the same time as the air line out of the exit bridge the air inlet is installed.

Aquaculture port, fixed mold, transfer mold, air inlet, mil pin.

Description

MOLD APPARATUS FOR MOLDING BREEDING FLOAT AND MOLDING PROCESS OF BREEDING FLOAT USING THE SAME}

1 is a perspective view of a conventional aquaculture ball,

Figure 2 is an exploded perspective view showing a molding apparatus for aquaculture buoys according to the present invention,

3 is a partially enlarged perspective view showing a molding apparatus for aquaculture buoys according to the present invention;

Figure 4a is a cross-sectional view showing a state in which the preform is positioned between the fixed mold and the transfer mold in the present invention,

Figure 4b is a cross-sectional view showing a state in which the fixed mold and the conveying mold is closed in the parison of the portion excluding the cavity forming part in the present invention,

Figure 4c is a cross-sectional view showing a state in which the air supply pipe is inserted through the air inlet in the present invention, the mold is closed, and the parison is expanded by blowing compressed air;

Figure 4d is a cross-sectional view showing an initial state to remove the air supply pipe inserted into the air inlet in the present invention,

Figure 4e is a cross-sectional view showing a state to close the air inlet by moving the pin through the guide hole formed in the fixed mold and the transfer mold in the present invention,

Fig. 5 is a perspective view showing the aquaculture tool shaped according to the present invention.

* Description of the symbols for the main parts of the drawings *

30: Aquaculture part 34: Air inlet

36: ring portion 42: fixed mold

44: transfer mold 46: cavity

46a: secondary body portion 46b: ring portion

46c: air inlet 52: guide hole

54: Milpin.

The present invention relates to a molding apparatus for aquaculture floats, and a method for forming aquaculture floats using the same. More specifically, the air inlet is a secondary body in the process of manufacturing aquaculture floats by extrusion molding using synthetic resin as a raw material. It is formed through the side of the ring portion, and the air inlet can be automatically filled and closed so that the secondary work of closing the air inlet by using a separate stopper after molding, so that the productivity and workability The present invention relates to a molding apparatus for aquaculture floats and a method for forming aquaculture floats using the same, which is capable of significantly improving the quality and prevents workers from injuring when handling the floats.

In general, in aquaculture farms, such as fish or seaweed, a float is used to maintain a fixed height of the net.

As shown in FIG. 1, the float 10 used in a conventional farm is made of a plastic material and has a hollow sphere-shaped float body 12 and an outer circumferential surface of the float body 12. Is formed to protrude from, the ring portion 16 is formed in the center of the ring portion 16 is formed, and the air injection hole 18 is formed so as to blow the compressed air into the interior when forming the secondary main body 12 .

On the other hand, the aquaculture tool 10 is located between the stationary mold and the transfer mold, the cavity is formed symmetrical to the surface facing the tubular parison (extruded from the extruder), and the transfer mold is moved After the mold is closed, it is manufactured by extrusion blow molding, in which compressed air is blown into the parison and molded into the same shape as the cavity.

In the manufacture of the aquaculture buckle 10 is used a separate air supply pipe for blowing the compressed air into the parison, after the completion of the injection of compressed air as the air supply pipe exits the predetermined of the main body 12 Inevitably, the air inlet 18 is formed to protrude outward from the circumferential surface.

When using the aquaculture buckle 10 manufactured as described above, the air inlet 18 formed outside the circumferential surface of the buoy main body 12 is fused with a iron or the like, or sealed by inserting a separate stopper 20 to seal the inside. To prevent water from entering.

However, since the air inlet 18 in the above-described conventional aquaculture mouth 10 is formed in a shape protruding to the outside of the circumferential surface of the subsidiary body 12 by a predetermined length, the surface is also not smoothly processed. There is a problem that there is a risk of safety accidents, such as worker injuries during handling.

In addition, there is a problem in that workability and productivity are very poor because the plug 20 is to be inserted into the air inlet 18 or the air inlet 18 is welded by the soldering iron before use. .

The present invention is to solve such a conventional problem, the object is that the air inlet is formed through the side of the ring portion rather than the secondary body in the process of manufacturing a cultured ball in the extrusion blow molding method using a synthetic resin as a raw material In addition, the air inlet can be automatically filled and closed so that the secondary work of sealing the air inlet by using a separate stopper after molding is not required, thereby significantly improving productivity and workability. At the same time, it is to provide a molding apparatus for a new aquaculture tool that prevents workers from injuries when handling the ball.

It is another object of the present invention to provide a method for forming a culture buoy using the forming apparatus for the culture buoy.

In order to achieve the above object, the present invention is made of a fixed mold and a transfer mold, by blowing compressed air into the tubular parison located between the fixed mold and the transfer mold of the aquaculture tool In the molding apparatus, a cavity having a predetermined depth formed of a sub-body body part and a ring part is symmetrically formed on the opposite surface of the fixed mold and the transfer mold, and connected to the sub-body body part. On the lower edge side, an air inlet is formed so that the air supply pipe can be inserted into the parison corresponding to the secondary body part of the cavity from the outside, and a fixed mold corresponding to the direction orthogonal to the forming direction of the air inlet is transferred. Inside the mold is formed a guide hole of a predetermined diameter to the outer surface of the ring portion, Each guide hole is as linear motion by the action of the cylinder operated by hydraulic or pneumatic and has the characteristics that the pair of milpin the exit air line and at the same time fill the air injection port provided escape.

In the present invention, the air inlet has a feature formed in an inclined form having a predetermined slope.

In order to achieve the above another object, the present invention is a cavity having a predetermined depth consisting of the sub-body body portion and the ring portion is formed symmetrically to match the shape of the cultured ball on the opposite side, the lower edge side of the ring portion of the cavity from the outside The step of opening the mold by separating and moving the transfer mold by a predetermined distance so that the fixed mold and the transfer mold formed with an air inlet for allowing the air supply pipe to be inserted into the parison corresponding to the secondary part of the main body are spaced at regular intervals. Wow; Placing a tubular parison extruded from the extruder between the stationary mold and the transfer mold; Closing the mold by moving the transfer mold to be in close contact with the fixed mold; Injecting compressed air into the parison by inserting an air supply pipe into an air inlet formed at a side of the bottom edge of the annular portion; Removing the air supply pipe inserted into the air inlet to the outside; Closing the air inlet by pushing the mil pin toward the air inlet at the same time as the air supply pipe exits; Separating and moving the transfer mold from the stationary mold, and ejecting the molded aquaculture tool.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Figure 2 is an exploded perspective view showing a molding apparatus for aquaculture tool according to the present invention, Figure 3 is a partially enlarged perspective view showing a molding apparatus for aquaculture tool according to the present invention, Figure 5 is for aquaculture molded according to the present invention It is a perspective view which shows a float.

Referring to this, as shown in FIG. 5, the air inlet 34 for injecting compressed air into the subsidiary body 32 when forming the aquaculture subsidiary 30 is not the subsidiary body 32. To be formed through the side of the ring portion 36, the air inlet 34 is configured to be automatically filled and closed.

To this end, the molding apparatus 40 for aquaculture buoys according to the present invention has a fixed mold 42 fixed and installed at a predetermined position, and a hydraulic cylinder (or pneumatic cylinder) at a position separated by a predetermined distance from the fixed mold 42. It consists of a transfer mold 44 is installed to move linearly to be in close contact or separated with respect to the fixed mold 42 by the action of).

In the present invention, the fixed mold 42 and the transfer mold 44 face the cavity having a predetermined depth consisting of the subsidiary body portion 46a and the ring portion 46b so as to match the shape of the aquaculture subassembly 30 ( Cavity 46 is formed symmetrically.

In addition, the air supply pipe (inside) of the parison 48 corresponding to the sub-body portion 46a of the cavity 46 from the outside at the lower edge side of the ring portion 46b connected to the sub-body portion 46 ( An air inlet 46c is formed to allow 50 to be fitted therein.

The air inlet portion 46c is formed in an inclined shape having a predetermined inclination, and is vertically formed when the lower edge side of the ring portion 46b is sufficiently thick and the portion connected to the secondary body portion 46a is relatively wide. Can be formed.

On the other hand, the fixed mold 42 and the transfer mold 44 corresponding to the direction orthogonal to the forming direction of the air inlet portion 46c into the guide hole of a predetermined diameter reaching the outer surface of the ring portion 46b ( 52) is formed.

Each of the guide holes 52 is linearly moved forward and backward by the action of a cylinder operated by hydraulic pressure or pneumatic pressure while the air supply pipe 50 is pulled out and the synthetic resin around the air inlet portion 46c is pushed in the air inlet ( A pair of mil pins 54 filling the 34 is installed.

The method for forming a cultured mouth using the present invention made as described above is as follows.

4A to 4E are cross-sectional views illustrating a process of molding a cultured float using a molding apparatus for aquaculture floats according to the present invention.

Referring to this, in the initial state in which the fixed mold 42 and the transfer mold 44 are closed to each other, the fixed mold 42 and the transfer mold 44 in close contact with each other are separated and moved by a predetermined distance to open the mold, and then the fixed mold Between the 42 and the transfer mold 44, a tubular parison 48 extruded from the extruder is placed (see FIG. 4A).

Then, the transfer mold 44 is moved to the fixed mold 42 to close the mold, as shown in Figure 4b, the tubular parison 48 is a fixed mold other than the cavity-formed portion It is in a state of being pressed by the surface of the 42 and the transfer mold 44.

In this state, as shown in Figure 4c, by inserting the air supply pipe 50 into the inside of the air inlet portion 46c formed on the side of the lower edge of the ring portion 46b, blowing compressed air into the parison, The parison 48 expands along the shape of the cavity 46 to form a culture float 30.

After the compressed air is supplied into the parison 48 as described above, the air supply pipe 50 inserted into the air inlet 46c is pulled out, and as shown in FIGS. 4D and 4E, the guide hole ( 52. The push pin 54 inserted into the air inlet portion 46c is pushed toward the air inlet portion 46c, whereby the synthetic resin around the air inlet 34 positioned between the molded air inlet 34 and the tip of the mill pin 54 is introduced into the air inlet. Pushed toward 34, the air inlet 34 is closed.

When the air inlet 34 is closed in this way, the mill pin 54 is operated outwards, and then the transfer mold 44 is separated again to open the mold.

The process is completed by ejecting the molded aquaculture tool 30 with the mold open.

According to the present invention, the air inlet is formed through the side of the ring portion, not the secondary body, and the air inlet is automatically filled and closed by means of a milling pin installed in the fixed mold and the transfer mold, so that a separate stopper and the like after molding This eliminates the need for secondary work to seal the air inlet, which significantly improves productivity and workability.

In addition, the air inlet is not protruding outward from the circumferential surface of the float main body, unlike the conventional aquaculture floats.

Claims (5)

In the forming apparatus of the forming tool for forming a mold for the production of the mold by blowing the compressed air into the tube-shaped parison located between the fixed mold and the transfer mold, A cavity having a predetermined depth is formed symmetrically on the opposing surface of the fixed mold and the transfer mold, the ring body having a sub-body portion and a ring portion formed with a rope fitting hole in accordance with the shape of the culture-shaped sub-ball; On the lower edge side of the ring portion connected to the secondary main body portion, an air supply pipe may be fitted from the outside into the parison corresponding to the secondary main body portion of the cavity, and has an inclined shape having a predetermined slope so as not to meet the rope fitting hole. An air injection portion is formed; The inside of the fixed mold and the transfer mold corresponding to the direction orthogonal to the forming direction of the air inlet portion is formed with a guide hole of a predetermined diameter to the outer surface of the ring portion; Each of the guide hole forming apparatus for aquaculture buoys, characterized in that a pair of milpins are installed to press and fill the air inlet at the same time as the air supply pipe while moving linearly by the action of the cylinder operated by hydraulic or pneumatic. delete delete In the aquaculture tool consisting of a plastic sphere, hollow sphere-shaped sub-body and protruding from the outer circumferential surface of the sub-body and a ring portion formed with a rope fitting hole in the center, The air inlet for blowing the compressed air into the secondary main body is formed in an inclined shape having a predetermined inclination in the ring portion formed with the rope fitting hole, by pressing a predetermined pressing plate on both sides of the ring portion during extrusion hollow molding A groove for sealing the air inlet is formed to a predetermined depth, wherein the air inlet does not protrude to the outer circumferential surface of the secondary body main body. delete

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