KR20080072431A - Gradation controlling device for manufacturing container - Google Patents

Abstract

A gradation controlling device for manufacturing a container is provided to achieve various gradation effects through controlling thickness of each part of a parison by lifting and lowering a gradation controlling unit connected to an inside of a head. A gradation controlling device for manufacturing a container comprises a head(10) and gradation controlling means. The head comprises the followings: an inner die(11) installed at a front end of a center unit(12); an inner unit(13) connected to an outside of the center unit with a clearance(G1); a housing(15) connected to an outside of the inner unit with a clearance(G2), to form a most outer resin layer of a parison; an outer die(16) connected to a bottom of the housing with a clearance(G3) with the inner die; and a gradation controlling unit(14) connected to an outside of the inner unit to be lifted and lowered. The gradation controlling device is connected to the inner unit to control thickness of the most outer resin layer by lifting and lowering the gradation controlling unit.

Description

Gradation controlling device for manufacturing container

1 is a partially enlarged cross-sectional view showing the head of the gradation control device for producing a container according to the present invention,

Figure 2 is a schematic overall cross-sectional view showing a gradation adjusting device for producing a container according to the present invention,

3 is a schematic overall cross-sectional view of a gradation control device for producing a container viewed from a direction different from that of FIG.

Explanation of symbols on the main parts of the drawings

10: Head 11: Internal Die

13: inner member 14: gradation adjusting member

15: Housing 16: External Die

20: gradation adjusting means 21: flow block

25: motor 26: joint member

27: screw shaft 28: nut

29: plate 30: support rod

31: stopper P: parison

G1, G2, G3: spacing

The present invention relates to a gradation adjusting device for producing a container, and more particularly to a gradation adjusting device for producing a container, which makes it possible to easily and accurately adjust the gradation expressed on the outer surface of the container.

In general, containers of synthetic resin containers have been proposed to have a gradation effect by varying the brightness on the outer surface, which is applied to cosmetic containers and the like.

Conventionally, when manufacturing a container having a gradation effect is produced by molding a thermoplastic resin in a mold, such as extrusion blow or stretch blow, and then heat transfer method or printed film on the outer surface of the container through a separate process or mechanical device The gradation is expressed by attaching or printing.

However, such a gradient expression method has inherent problems such as damage or detachment of the transfer film, the print film, or the print layer after prolonged use or impact from the outside.

The present invention has been invented to solve the above problems, an object of the present invention is very easy to control the amount of the resin supplied from the outside of the container made of a multi-layer gradation for container manufacturing which can improve the gradation effect To provide an adjusting device.

In the gradation adjusting apparatus for manufacturing a container according to the present invention for achieving the object as described above, the inner die is formed at the tip of the center member, the inner member is coupled at intervals on the outside of the center member, the inner member of the The housing is coupled to form an outermost resin layer of the parison at intervals on the outside, the outer die is coupled to the bottom of the housing at intervals between the inner die, and the gradation adjustment member is lifted on the outside of the inner member. Possible head and the inner member is characterized in that the gradation control means for adjusting the thickness of the outermost resin layer by lifting the gradation control member in the vertical direction.

Therefore, according to the present invention, it is very easy to control the thickness of the outermost resin layer forming the parison according to the lifting operation of the gradation adjusting member coupled to the inside of the head, and also has an improved gradation effect. Since the thickness can be adjusted differently, various gradient effects can be obtained.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a partially enlarged cross-sectional view showing the head of the gradation control device for producing a container according to the present invention, Figure 2 is a full sectional view showing a gradation adjusting device for producing a container according to the invention, Figure 3 is in a different direction than FIG. It is sectional drawing of the gradation control apparatus for manufacturing this container.

In the drawings, the gradation adjusting device according to the present invention is coupled to an upper side of the head 10 for manufacturing a parison P, which is a preform of a container in which a plurality of resin layers are formed, and the parison ( And gradation adjusting means 20 for adjusting the thickness of the outer side resin layer of P).

The head 10 has an inner member 13 coupled to an outer side of the center member 12 having an inner die 11 at a tip end at a predetermined interval G1, and is disposed outside the inner member 13. The gradation adjusting member 14 is coupled to be movable in the vertical direction.

In addition, the gradation adjusting member 14 is capable of adjusting the gradation formed on the surface of the container to be formed later by adjusting the thickness of the outer resin layer of the parison P by raising and lowering.

The gradation adjusting member 14 has a flange portion 14a formed on an upper side thereof, and a housing 15 is coupled to the outside at a predetermined interval G2, and a lower side of the housing 15, that is, the inside thereof. The outer die 16 is coupled to the outside of the die 11 at predetermined intervals G3.

Between the inner die 11 and the outer die 16, a plurality of layers of resin layers are discharged to form the parison P.

And by varying the interval between the housing 15 in accordance with the lifting operation of the gradation adjusting member 14 to adjust the thickness of the resin layer discharged to the gap (G2) between the gradation adjusting member 14 and the housing 15 The gradient effect can be obtained.

Resin supply ports 17 and 18 are formed on the upper side of the center member 12 to forcibly supply molten resin by screws or the like, and an air passage is formed at the center of the center member 12 to supply air. 19) is formed.

The resin layer of the parison P formed between the inner die 11 and the outer die 16 is formed of two layers, but is not limited thereto. For example, the inner member 13 and the housing 15 may be formed. Another intermediate member is joined to form a gap in which resin is discharged between the two, and when the gradation adjusting member 14 is provided on the outer side of the intermediate member so as to be lifted up and down, a parison having three resin layers ( P) can be molded.

On the other hand, the gradation adjusting means 20 provided on the upper side of the head 10 is the flange portion 14a and the center member 12 formed on the upper side of the gradation adjusting member 14 as shown in Figs. It is coupled to the flow block 21 coupled to the upper side of the.

One side of the flow block 21 is coupled to the extrusion supply pipe 22 for supplying the molten resin into the head 10 through the resin supply ports 17 and 18.

A plurality of guide shafts 23 are erected and fixed on an upper side of the flow block 21, a fixing member 24 is fixedly installed on an upper side of the guide shaft 23, and an upper side of the fixing member 24. The motor 25 is mounted.

The joint member 26 is coupled to the drive shaft 25a of the motor 25, the screw shaft 27 is coupled to the lower side of the joint member 26, and the nut 28 is connected to the screw shaft 27. ) Is coupled to the nut 28 is integrally coupled to the lifting plate 29 provided in the transverse direction.

A plurality of support rods 30 are coupled to the lower side of the elevating plate 29, and lower ends of the support rods 30 are coupled to the flange portion 14a of the gradation adjusting member 14.

In addition, a plurality of stoppers 31 are coupled to the lower side of the elevating plate 29 to have a predetermined length, and the lower end of the stopper 31 is formed at a predetermined distance from the upper end of the flow block 21. It is to control that the gradation adjustment member 14 descends more than a predetermined length at the time of descending.

A plurality of ball bushes 32 are coupled to the elevating plate 29, and a guide shaft 23 is coupled to the inside of the ball bush 32 so as to slide upward and downward.

An air supply pipe 33 for supplying air to the inside of the parison P is formed at the upper end of the air passage 19.

The gradation control apparatus for manufacturing a container according to the present invention configured as described above has the center member 12 through the resin supply ports 17 and 18 after the molten resin is introduced into the flow block 21 through the extrusion supply pipe 22. And discharged through the gap G1 between the inner member 13 and the gap G2 between the gradation adjusting member 14 and the housing 15 and then discharged between the inner die 11 and the outer die 16. The parison P which has many resin layers is shape | molded.

The resin layer formed on the outermost side of the parison P is discharged through the gap G2 between the gradation adjusting member 14 and the housing 15, and when the gradation adjusting member 14 is adjusted, Gradient control is possible by adjusting the thickness of the resin layer.

The gradation adjusting member 14 is to adjust the interval (G2) while lifting in accordance with the operation of the gradation adjusting means (20).

That is, when the rotational force according to the driving of the motor 25 is transmitted from the drive shaft 25a to the screw shaft 27 through the joint member 26, the screw shaft 27 rotates in one direction, and thus the screw shaft As the nut 28 coupled to the lower portion 27 descends, the elevating plate 29 and the supporting rod 30 are gradually lowered at a predetermined speed, and then coupled to the flange portion 14a at the tip of the supporting rod 30. As the gradation adjusting member 14 is lowered, the size of the gap G2 is gradually reduced, so that the thickness of the resin layer formed on the outermost side of the parison P becomes thicker and the upper part is thinly formed. As the surface goes from the bottom to the top, it will have a gradation effect in which the rice field becomes thinner.

At this time, the lifting plate 29 is a plurality of guide shafts 23 fixed to the fixing member 24 is lifted in the ball bush 32 coupled to the lifting plate 29, the lifting plate 29 is stable posture It will work as a lift.

And when the descending lifting plate 29 and the gradation adjusting member 14 are lowered by a predetermined distance, the tip of the stopper 31 is in contact with the upper end of the flow block 21, accordingly the motor 25 and the screw shaft At 27, the gradation adjusting member 14 is returned to its original position as the lowered gradation adjusting member 14 and the elevating plate 29 are raised by the lifting operation of the nut 28.

By raising and lowering the gradation adjusting member 14, the thickness of the outermost resin layer of the parison P is not limited to having a thick lower portion and a thinner upper portion, for example, the outermost portion of the parison P. The thickness of the resin layer is formed so that the upper part is thick and the lower part is thin, or the thickness of the upper part and the lower part is thin and the center part is thick, or the thickness of the upper part and the lower part is thick and the center part is thin, thereby obtaining various gradation effects.

In addition, air is supplied through the air supply pipe 33 connected to the upper center of the head 10 and flows through the air passage 19 to supply air to the inside of the parison P during molding of the container. It is possible to mold the container.

The present invention as described above is not limited to the above-described specific embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various changes without departing from the gist of the present invention as claimed in the claims. will be.

Therefore, according to the present invention, it is very easy to control the amount of the outermost resin layer forming the parison, that is, thickness according to the lifting operation of the gradation adjusting member coupled to the inside of the head, and has a further improved gradation effect, Since the thickness of each part can be adjusted differently, various effects of gradation can be obtained.

Claims (3)

An inner die 11 is formed at the tip of the center member 12, and the inner member 13 is coupled to the outer side of the center member 12 with a gap G1, and the outer side of the inner member 13. A housing 15 is formed to form the outermost resin layer of the parison P at a distance G2, and the outer side of the housing 15 is spaced apart from the inner die 13 with a gap G3. The head 16 is coupled to the die 10, the outer side of the inner member 13, the gradation adjustment member 14 is coupled to the lifting head 10, The inner member (13) is a gradation control device for producing a container, characterized in that the gradation adjusting member (14) is operated in the vertical direction to increase and decrease the thickness of the outermost resin layer (20). The method of claim 1, The gradation adjusting means 20 is a lifting plate 29 fixed to the gradation adjusting member 14 by a plurality of support rods 30, a nut 28 integrally coupled to the lifting plate 29, and the nut Gradient adjustment device for container manufacturing including a screw shaft (27) screwed up and down coupled to (28), and a motor (25) coupled to the screw shaft (27) via a joint member (26) to generate rotational force. . The method of claim 2, The lifting plate 29 is a gradation control member 14 and the gradation control device for producing a container, characterized in that the stopper 31 is coupled to limit the falling distance of the lifting plate (29).

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