JP3457715B2 - Nozzle holder unit for molding dies - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nozzle holder unit for a molding die, which is incorporated in a molding die for molding a large injection molded product, for example.

[0002]

2. Description of the Related Art Injection molding in which a plurality of cavities are provided in one molding die, the molten resin injected from a molten resin injection port is distributed, and is guided to a gate communicating with the cavity in a heat retaining state. The mold is, for example, JP-A-6
It is known from JP-A-3-95923 and JP-A-60-143922.

These molding dies are constructed so that a plurality of molded products can be simultaneously molded by one injection molding. Basically, one molten resin is provided in the sprue part provided in the central part. It has an inlet and a branch passage communicating with the inlet and branched into a plurality of branches. On the other hand, the mold body is provided with a plurality of cavities, and a plurality of nozzle holder units having a gate communicating with these cavities are provided. Further, in order to connect the branch passage of the sprue portion and each of the nozzle holder units, a hot runner manifold having a heater is connected to guide the injected molten resin in a heat retaining state.

Therefore, the molten resin injected from the molten resin injection port is distributed to the plurality of runners through the branch passages, guided from the runners to the gate through the plurality of nozzle holder units, and further, from the gate to each cavity. Is injected into.

A conventional nozzle holder unit is constructed as shown in FIG. That is, 1 is a mold body, which is composed of a fixed mold 2 and a movable mold 3, and a plurality of cavities 4 are formed between the molds 2 and 3. The fixed mold 2 has a base plate 1 on the top.
Has 0. A support plate 11 forming a space a is joined to the lower surface side of the base plate 10. A resin passage 12 through which molten resin flows is provided in the space a.
A hot runner manifold 13 having a cylindrical shape is provided. This hot runner manifold 13
Although not shown in the figure, a heater is provided.

The hot runner manifold 13 is provided with a sprue portion 14, and the sprue portion 14 is provided with a molten resin injection port 16 for molten resin. A nozzle (not shown) of an injection molding machine is brought into contact with the molten resin injection port 16.

A fitting hole 12a is formed in the hot runner manifold 13 at a right angle to the resin passage 12 and communicates with the end portion. The fitting hole 12a opens on the upper surface of the hot runner manifold 13 and communicates with the space portion a.

A flange 20a is provided at the upper end of the fitting hole 12a.
The valve guide bush 20 having the above is inserted, and the flange 20a is sandwiched between the base plate 10 and the hot runner manifold 13.

A resin communication passage 20b bent at a right angle is formed at the lower end of the valve guide bush 20. Resin communication passage 2 that opens to the side of the valve guide bush 20
One end of 0b communicates with the resin passage 12, and the other end of the resin communication passage 20b opening at the bottom communicates with the resin passage 12b formed at the bottom of the fitting hole 12a.

A plurality of nozzle holder units 2 extending through the back plate 24 to the cavity plate 25 in the support plate 11 facing the resin passage 12b.
6 (only one is shown), the nozzle holder unit 26 is provided with a resin passage 26a whose upper end communicates with the resin passage 12b and whose lower end communicates with the cavity 4 via the gate 27. Further, a band heater 28 is wound around the nozzle holder unit 26, and is configured to guide the molten resin to the gate 27 in a heat retaining state.

Further, a valve guide hole 21 is formed in the shaft center of the valve guide bush 20.
A needle valve 22 is supported at 1 so as to be vertically slidable. The needle valve 22 is a straight rod-shaped member that extends through the resin passage 26a of the nozzle holder unit 26 to the gate 27 and has a valve portion 22a at its lower end that opens and closes the gate 27.

An upper end portion of the needle valve 22 is connected to a valve operating piston 23a of an air cylinder 23 provided on the base plate 10 so that the needle valve 22 is driven to move up and down.

[0013]

The nozzle holder unit 26 constructed as described above is a mold part integrally formed, and is incorporated in the mold body 1 when the molding mold is manufactured. There are a plurality of types 26 having different length dimensions L _{1, which} are selectively incorporated into the mold body 1. However, during machining such as cutting of the die body 1, for example, when the cavity plate 25 is cut, excessive cutting occurs, and the dimension L ₂ between the lower surface of the hot runner manifold 13 and the lower surface of the cavity plate 25 is the nozzle holder unit 26. If the length is shorter than the length L ₁ , the gate 27 cannot be accurately positioned with respect to the cavity 4, and the nozzle holder unit 26 cannot be assembled as it is.

Therefore, in such a case, it is necessary to grind the upper end surface of the nozzle holder unit 26 to adjust the dimension L ₁ , and a lot of labor is spent in manufacturing the mold. As a result, the cost of the molding die is increased.

The present invention has been made in view of the above circumstances, and an object thereof is to provide a nozzle even if excessive cutting occurs during machining such as cutting of a mold body, for example, during cutting of a cavity plate. Provided is a nozzle holder unit for a molding die, in which the length of the holder unit can be adjusted, the nozzle holder unit can be easily incorporated in the die body, and the cost of the molding die can be reduced. It is in.

[0016]

Means for Solving the Problems] The present invention, in order to achieve the object, Claim 1 is connected to the hot runner manifold incorporated in the mold body, the resin leading to the cavity a molten resin in a heat insulating state In a nozzle holder unit for a molding die having a nozzle holder and a gate forming a passage, the nozzle holder is divided into an upper nozzle holder and a lower nozzle holder, and the upper nozzle holder
A fitting hole with a female thread is provided on the inner peripheral surface of the
Screw the screw holder into the female thread of the fitting hole and screw it in.
The length of the lower nozzle holder can be adjusted by adjusting the amount
In contrast to the upper nozzle holder, the lower nozzle holder
And a needle valve for opening and closing the gate is provided in the resin passage of the nozzle holder so as to be movable back and forth. Claim 2 is a claim
The nozzle holder of Item 1 has a plurality of lower nozzles with different lengths.
Holder is prepared and replaceable with the upper nozzle holder
It is characterized by being connected to.

[0017]

According to the above construction, the upper nozzle is attached to the lower nozzle holder.
Insert the male screw part that is screwed into the female screw part of the fitting hole of the slide holder.
By installing the lower nozzle holder,
The length of the da can be finely adjusted. Also, since the lower nozzle holder can be attached to and detached from the upper nozzle holder, even if overcutting occurs during cutting of the mold body, remove the lower nozzle holder and cut the lower nozzle holder to adjust the length.
The gate can be positioned accurately with respect to the cavity.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings. As shown in FIGS. 1 and 2, a plurality of cavities 4 (only one is shown) are formed between the fixed mold 2 and the movable mold 3 which form the mold body 1. A base plate 10 and a support plate 11 are provided on the fixed mold 2, and a space a is formed between the base plate 10 and the support plate 11. A hot runner manifold 13 having a resin passage 12 through which a molten resin flows is provided in the space a.

Between the hot runner manifold 13 and the cavity 4, a fixed mold 2 and a support plate 1 are provided.
Through holes 31 and 32 penetrating 1 are coaxially formed, and a nozzle holder unit 33 is provided in these through holes 31 and 32.

The nozzle holder unit 33 comprises an upper nozzle holder 34, a lower nozzle holder 35 and a needle valve 36. The upper nozzle holder 34 has a cylindrical shape with a short axis, and a washer housing recess 37 is provided in the upper portion and a fitting hole 38 is provided in the lower portion located at the axial center of the upper nozzle holder 34.
A partition wall 39 is provided between the washer storage recess 37 and the fitting hole 38, and a through hole that forms a resin passage 40 described later is formed in the partition wall 39. A seal ring 41 made of a ceramic material is accommodated in the washer accommodating recess 37, and a spacer 42 is provided in the inner portion of the fitting hole 38.
Is removably housed, and an internal thread 43 is provided on the inner peripheral surface.

The upper nozzle holder 34 is inserted into the through hole 31 from above the support plate 11. The through hole 31 is a stepped hole, the upper part of which is a large diameter part and the lower part of which is a small diameter part. The upper nozzle holder 34 fitted in the large diameter part is supported by the step part 31a.

The lower nozzle holder 35 is formed by a cylindrical pipe, and a resin passage 40 is provided inside. Further, a male thread 44 having a long threaded portion is formed at the upper end of the lower nozzle holder 35.
Is screwed into the female thread 43 of the upper nozzle holder 34. That is, the lower nozzle holder 35 is detachably connected to the upper nozzle holder 34, and the length of the lower nozzle holder 35 can be adjusted by the screwing amount.

Further, the male screw 4 of the lower nozzle holder 35.
A lock nut 45 is screwed onto the screw 4. The lock nut 45 is fitted into the small diameter portion of the through hole 31 and comes into contact with the lower surface of the upper nozzle holder 34 so as to come into contact with the lower nozzle holder 3.
4 and the lower nozzle holder 35 are locked.

The lower nozzle holder 35 is inserted into the through hole 32 provided in the fixed mold 2, and a tapered pointed portion 46 is formed at the lower end thereof, and the resin passage 40 and the resin passage 40 are formed in the pointed portion 46. A nozzle port 47 that communicates is formed obliquely. The tip 46 of the lower nozzle holder 35 is surrounded by a gate bush 49 having a gate 48, and a nozzle 50 that connects the nozzle port 47 and the gate 48 is formed between the tip 46 and the gate bush 49. There is.

A band heater 51 is wound around the outer periphery of the lower nozzle holder 35, and a spacer pipe 52 interposed between the lock nut 45 and the gate bush 49 is provided on the outer periphery of the band heater 51.

Further, the needle valve 36 is provided through the resin passage 53 of the upper nozzle holder 34 and the lower nozzle holder 35 so as to be vertically movable. The needle valve 36 is a straight rod-shaped body and has the gate 48.
Valve part 3 that extends to the bottom and opens and closes the gate 48
6a is formed.

An upper end portion of the needle valve 36 is provided in the hot runner manifold 13, and a valve guide bush 54 having a flange 54a at the upper end portion is inserted, and the flange 54a is sandwiched between the base plate 10 and the hot runner manifold 13. Has been done.

The valve guide bush 54 is made of a material having excellent thermal conductivity, and a valve guide hole 55 for axially slidably supporting the needle valve 36 is provided at the center of the shaft. Further, at the upper end of the valve guide bush 54, a plurality of disc-shaped fins 56 are integrally provided at a predetermined interval above the flange 54a to form a large surface area.

The fins 56 are the base plates 10
The cooling medium 57 is housed inside a cooling chamber 57 formed of a recessed portion, and a cooling medium passage 58 communicates with the cooling chamber 57. That is, a cooling medium such as cold air or cold water as a cooling fluid flows through the cooling medium passage 58 to form a cooling unit for cooling the fins 56.

The upper end of the needle valve 36 is connected to a valve driving mechanism 59 such as an air cylinder provided on the base plate 10 to drive the needle valve 53 forward and backward.

Next, the operation of the molding die configured as described above will be described. When the heated molten resin is injected from the nozzle of the injection molding machine into the molten resin injection port 16, the molten resin is introduced into the resin passage 40 via the resin passage 12 of the hot runner manifold 13, and is further introduced in the order of the nozzle 50.

Therefore, when the valve drive mechanism 59 is operated to raise the needle valve 36, the valve portion 36a is separated from the gate 48, the gate 48 is opened, and the molten resin inside the resin passage 40 is passed through the gate 48. The cavity 4 is filled. When the filling of the predetermined amount of molten resin is completed, the valve drive mechanism 59 operates to lower the needle valve 36, and the valve portion 36a closes the gate 48.

As described above, during injection molding, when the molten resin flowing through the resin passage 12 of the hot runner manifold 13 flows through the resin communication passage 20b, a part of the molten resin is contained in the valve guide hole 55 and the needle valve 36. Enter the gap between. That is, since the molten resin flowing through the resin passages 12 and 26a has a high pressure, the molten resin enters even in a small gap, but since the fin 56 is cooled by the cooling medium and the valve guide bush 54 is cooled, the molten resin is cooled. Is cooled and solidified.

As described above, the molten resin is solidified in a state where the molten resin enters the gap between the needle valve 36 and the valve guide hole 55 of the valve guide bush 54, and the solidified molten resin seals the portion sliding on the needle valve 36. Since it also functions as a lubricant with the needle valve 36, the needle valve 36 can be operated smoothly and leakage of molten resin as in the conventional case can be prevented.

As described above, the nozzle holder unit 3
3 comprises an upper nozzle holder 34, a lower nozzle holder 35 and a needle valve 36. Therefore, the molding die can be manufactured only by incorporating the nozzle holder unit 33 into the mold body 1 when manufacturing the molding die. This nozzle holder unit 33 is of a plurality of types having different length dimensions L _{1, and} is selectively incorporated in the mold body 1.

However, during machining such as cutting of the mold body 1, for example, when cutting the fixed mold 2 to form the cavity 4, excessive cutting occurs and the lower surface of the hot runner manifold 13 and the cavity 4 are generated. If the dimension L ₂ between the nozzle holder unit 33 and the inner surface of the nozzle holder becomes shorter than the length dimension L ₁ of the nozzle holder unit 33, the gate 48 cannot be accurately positioned with respect to the cavity 4, and the nozzle holder unit 33 is directly assembled. It is not possible.

However, in the nozzle holder unit 33 of the present invention, the lower nozzle holder 35 is detachably formed with respect to the upper nozzle holder 34, and the lower nozzle holder 3 is also provided.
The external thread 44 of No. 5 has a long threaded portion. Therefore, the dimension L ₁ of the entire length of the nozzle holder unit 33 can be adjusted by cutting the base end portion of the lower nozzle holder 35, that is, the portion of the male screw 44 to shorten the length of the lower runner manifold 13. It is possible to match the dimension L ₂ with the inner surface of the cavity 4.

In this case, the end surface of the lower nozzle holder 35 needs to be brought into contact with the spacer 42 housed in the inner portion of the fitting hole 38 of the lower nozzle holder 35.
2 may be replaced with a thicker one, or a spacer plate may be added.

Therefore, when the fixed mold 2 is cut to form the cavity 4, excessive cutting occurs, and the dimension L ₂ between the lower surface of the hot runner manifold 13 and the inner surface of the cavity 4 is determined by the nozzle holder unit. Even if it becomes shorter than the length dimension L _{1 of} 33, it is not necessary to replace the nozzle holder unit 33 with a new one, and it can be dealt with by a slight work.

An annular groove 42a is formed on the lower surface of the spacer 42, and stainless steel O is formed in the annular groove 42a.
The ring 42b is stored. Therefore, when the base end portion of the lower nozzle holder 35 is cut, even if the squareness has a slight error, it can be absorbed by the stainless O-ring 42b.

[0041]

Since the present invention is constructed as described above,
Female thread in the fitting hole of the upper nozzle holder on the lower nozzle holder
By providing a male screw part that is screwed into the
The length of the lower nozzle holder can be finely adjusted depending on the amount.
Further, since the lower nozzle holder can be attached to and detached from the upper nozzle holder, even if excessive cutting occurs during cutting of the die body, the lower nozzle holder is removed and the lower nozzle holder is cut to adjust the length. Also, the gate can be accurately positioned with respect to the cavity. Therefore,
Easy to assemble the nozzle holder unit into the mold body,
There is an effect that the cost of the molding die can be reduced.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of a molding die showing an embodiment of the present invention.

FIG. 2 is a vertical sectional side view of the nozzle holder according to the embodiment.

FIG. 3 is a vertical cross-sectional view of a conventional molding die.

[Explanation of reference numerals] 1 ... Mold body, 4 ... Cavity, 13 ... Hot runner manifold, 33 ... Nozzle holder, 34 ... Upper nozzle holder, 35 ... Lower nozzle holder, 36 ... Needle valve, 40 ... Resin passage, 48 ... Gate.

Claims (2)

(57) [Claims] 1. A nozzle holder unit for a molding die, which has a nozzle holder and a gate, which is connected to a hot runner manifold incorporated in a die body and forms a resin passage for guiding a molten resin to a cavity in a heat-retaining state, The nozzle holder is divided into an upper nozzle holder and a lower nozzle holder, and the upper nozzle holder has a female inner surface.
A fitting hole having a threaded portion is provided, and the lower nozzle holder is screwed into the female threaded portion of the fitting hole.
The length of the lower nozzle holder can be adjusted depending on the screwing amount.
In addition, the lower nozzle can be
A nozzle holder unit for a molding die , which is provided with a male screw part for detachably connecting the slide holder, and a needle valve for opening and closing the gate is provided in a resin passage of the nozzle holder so as to be able to move forward and backward . 2. The nozzle holder for a molding die according to claim 1, wherein a plurality of lower nozzle holders having different lengths are prepared, and the nozzle holder is exchangeably connected to the upper nozzle holder. unit.