JP2003011176A - Valve gate type mold equipment - Google Patents

Abstract

(57) [Problem] To easily align a valve pin with a gate, and to suppress wear of the gate due to fitting of the valve pin and the gate. The apparatus has a valve pin for opening and closing a gate. The valve casing 12 includes a valve pin holding portion 31 formed on the gate 14 side to slidably support the valve pin 25. The valve pin support 31 includes a plurality of support blades 32 that slidably support the valve pin 25. The dimensional difference between the fitting portion between the valve support portion 31 and the pin body 26 of the valve pin 25 is determined by the dimensional difference between the fitting portion between the gate 14 and the valve pin 25 (D
₁ -D ₂ ). The gate closing portion 27 of the valve pin 25 is securely aligned with the gate 14 by the valve pin supporting portion 31, and the gate 14 and the gate closing portion are
The clearance with 27 can be made large, and the gate 14
Can reduce the occurrence of wear.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve gate type mold apparatus used for injection molding of thermoplastic resin.

[0002]

In a hot runner mold apparatus, a resin, which is a molding material in a material passage to a gate to a product cavity, is heated to constantly maintain a molten state,
2. Description of the Related Art A valve gate type mold device is known in which a gate is mechanically opened and closed by a valve pin which is a valve body. The hot runner mold device is intended to increase the molding efficiency, and the gate is closed to prevent the resin from leaking from the gate when the mold is opened.

Here, a conventional valve gate type mold device will be described. The fixed mold and the movable mold, which are mold bodies, move to each other to open and close, and when the mold is closed, a product cavity having a product shape is formed between them. The fixed mold includes a fixed-side mold plate and a fixed-side receiving plate, and a gate bush is fitted in a gate bush mounting hole formed through the fixed-side mold plate. A gate opening to the product cavity is formed at the tip of the gate bush. The valve casing of the valve device is incorporated in the installation hole formed through the fixed side receiving plate and the installation hole formed inside the gate bush. The valve casing has a substantially cylindrical shape, and the inside thereof is a material passage communicating with the gate. On the outer peripheral surface of the valve casing, there are provided a band heater which is a means for keeping the thermoplastic resin, which is a molding material in the material passage, always in a molten state, and a heater cover which covers the band heater from the outside. A valve pin that opens and closes the gate of the gate bush by being driven by a hydraulic cylinder or the like and moving while being supported by a guide bush is provided in the valve casing. The valve pin fits into the gate of the gate bush to close it. And when molding,
A plurality of mold bodies are closed to form a product cavity between these mold bodies, a gate is opened, and a molding material is filled from a material passageway through the gate into the product cavity. Then close the gate of the gate bush with the valve pin,
Further, after the molding material in the product cavity is solidified, the mold is opened to take out the molding material in the product cavity, that is, the molded product. Thereafter, the mold is closed again and the above molding cycle is repeated. Throughout the entire molding cycle, the molding material in the material passage of the valve body is always kept in a molten state by the heating of the heating means.

In such a valve gate structure,
It is necessary to align the valve pin with the gate securely,
This ensures the opening / closing operation of the gate.
However, the tip of the valve pin is a free end at the gate open position, and there is a limit to the dimensional accuracy due to the centering.In order to close the gate securely, set the dimensional tolerance between the gate and the valve pin to a small value. By fitting the valve pin to the gate, a reliable opening / closing operation is achieved. Since the dimensional tolerance between the gate and the valve pin is set small as described above, there is a problem that friction occurs between the gate and the valve pin due to the opening / closing operation and the gate is easily worn.

The present invention is intended to solve such a problem, and it is possible to easily align the valve pin and the gate and to suppress the abrasion of the gate due to the fitting of the valve pin and the gate. An object of the present invention is to provide a mold apparatus.

[0006]

In order to achieve the above object, a valve gate type mold apparatus according to a first aspect of the present invention includes a plurality of mold bodies which are opened and closed to form a product cavity between them when the mold is closed. A valve device for opening and closing a gate for communicating a material passage provided in the mold with the product cavity, the valve device having a material passage therein and heating means for heating the material passage. And a valve pin that opens and closes the gate, the valve casing includes a valve pin support portion that is formed on the gate side and slidably supports the valve pin, and the valve pin support portion and the valve pin The dimensional difference in the fitting portion is smaller than the dimensional difference in the fitting portion between the gate and the valve pin.

At the time of molding, a plurality of mold bodies are closed to form a product cavity between these mold bodies, a gate is opened, and a molding material is filled in the product cavity from the material passageway through the gate. Then, the gate is closed by the valve pin, and after the molding material in the product cavity is solidified, the mold is opened to take out the molding material in the product cavity, that is, the molded product. After that, the mold is closed again and the above molding cycle is repeated. Throughout the entire molding cycle, the molding material in the material passage of the valve casing is always kept in a molten state by the heating of the heating means.

The valve pin opens and closes the gate while being guided and supported by a valve pin support portion provided on the gate side of the valve casing. In this case, the dimensional difference in the fitting portion between the valve pin support portion and the valve pin is set to be smaller than the dimensional difference in the fitting portion between the gate and the valve pin, and the valve pin support portion ensures that the valve pin is aligned with the gate. At the same time, the clearance between the gate and the valve pin can be made larger than in the conventional case, the friction between the gate and the valve pin can be reduced, and the occurrence of wear in the gate can be reduced.

According to a second aspect of the present invention, in the valve gate mold apparatus according to the first aspect of the present invention, a gate closing portion is provided at a tip end portion of the valve pin, and the valve pin supporting portion has a larger diameter than the gate closing portion. Is to support.

As a result, since the valve pin support portion supports the valve pin in a portion having a diameter larger than the gate closing portion, it is easier to improve the alignment accuracy than in the case of supporting a portion having a small diameter, and the gate by the valve pin support portion is improved. The closed portion can be positioned reliably.

According to a third aspect of the present invention, in the valve gate mold apparatus according to the first or second aspect of the invention, the gate is provided at the tip of the valve casing.

Thus, by providing the gate on the valve casing, the valve casing and the valve pin are aligned with each other, so that the valve pin can be accurately aligned with the gate.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION A first embodiment of a valve gate type mold apparatus of the present invention will be described below with reference to FIGS. 1 is a fixed die, 2 is a movable die, and these fixed die 1 and movable die 2 which are die bodies move in the vertical direction (die opening and closing direction) shown in the drawing to open and close, and when the die is closed, the product shape The product cavity 3 is formed. The fixed mold 1 includes a fixed-side mold plate 4 as a main body thereof, and a fixed-side receiving plate 5 fixed to a surface of the fixed-side mold plate 4 opposite to the movable mold 2. The casing bush 7 is inserted into the bush mounting hole 6 formed through the fixed-side template 4.
Are fitted. A casing mounting hole 8 is formed at the tip of the casing bush 7. The valve casing 12 of the valve device 11 is incorporated in the installation hole 9 formed through the fixed side receiving plate 5 and the installation hole 10 formed inside the casing bush 7, and the tip side of the valve casing 12 is installed. The valve casing small diameter body 13 is fitted into the casing fitting hole 8 of the casing bush 7 in a fitted state. The valve casing 12 comprises a valve casing body 12A and the valve pin small diameter body 13. The valve casing 12 has a substantially cylindrical shape, and a gate 14 opening to the product cavity 3 is formed at the tip of the small diameter body 13. The inside of the valve casing 12 is the gate 14
Is a material passage 15 communicating with the. On the outer peripheral surface of the valve casing 12, there is provided a band heater 16 which is a means for keeping the thermoplastic resin, which is the molding material in the material passage 15, always in a molten state, and a heater cover 17 which covers the band heater 16 from the outside. It is provided. The valve casing 12
A temperature sensor 18 is provided along the inside of the band heater 16. The base end portion of the valve casing 12 is a flange portion 19, which is fixedly supported between the manifold 20 and the fixed side receiving plate 7. An insert 21 and a guide bush 22 which is a valve pin support are fixed to the base end of the valve casing 12. The guide bush 22 penetrates the insert 21. The material passage 15 in the valve casing 12 communicates with a runner 24 in the manifold 20 by a bent portion 23.

The valve casing 12 incorporates a substantially columnar valve pin 25 that opens and closes the gate 14 by moving in the mold opening and closing direction by driving a driving device such as a hydraulic cylinder device (not shown). This valve pin
The reference numeral 25 indicates that the gate closing portion 27 formed as a straight portion at the tip of the pin body 26 located inside the valve casing 12 is removably fitted into the gate 14 to close the gate 14, A tapered portion 26A is formed between the gate closing portion 27 and the gate closing portion 27, and the pin body 26 is formed to have a diameter larger than that of the gate closing portion 27. The gate 14, the gate closing portion 27, the pin body 26 and the valve pin support portion 31 are coaxially arranged. In addition, between the pin body 26 and the pin base end portion 28, an enlarged portion 26B that expands toward the pin base end portion 28 side.
And the pin base end portion 28 is formed to have a diameter larger than that of the pin body 26. The pin base end portion 28 of the valve pin 25 is supported by the guide bush 22 on the manifold 20 side. That is, the pin base end portion 28 of the valve pin 25 slidably penetrates through the guide bush 22.

The valve pin 25 has the die opening / closing direction as the axial direction and coaxially penetrates through the linear material passage 15. However, the valve pin support formed on the gate 14 side of the valve casing 12 is supported. The outer peripheral surface of the pin body 26 is always slidably in contact with the inner edge of the portion 31. As shown in FIG. 3, the valve pin support portion 31 is composed of a plurality of radial support blades 32, and the pin body 26 of the valve pin 25 on the gate 14 side is slidably supported thereby. The material passage 15 and the gate are provided between the support vanes 32.
A concave groove portion 33 communicating with 14 is formed.

The inner diameter dimension D ₁ of the fitting portion of the valve pin support portion 31 and the pin body 2 which is the fitting portion of the valve pin 25.
The dimensional difference (D ₁ −D ₂ ) from the outer diameter dimension D _{2 of} 6 is the dimensional difference between the inner diameter dimension d ₁ of the gate 14 and the outer diameter dimension d ₂ of the gate closing portion 27 that is the fitting portion of the valve pin 25. It is set smaller than (d ₁ −d ₂ ). In this example, since the valve pin support portion 31 is composed of a plurality of radial support blades 32,
As shown in FIG. 4, the inner diameter dimension D ₁ is the diameter dimension of an imaginary circle formed by the inner edges of the plurality of support blades 32, and the inner edge of the plurality of support blades 32 and the outer peripheral surface of the pin body 26 are Mating.

The small-diameter body 13 forming a part of the valve casing 12 is detachably mounted on the valve casing body 12A. Specifically, a built-in recess 41 is provided at the tip of the valve casing body 12A, and the small diameter body 13 is mounted in the built-in recess 41. Further, in the assembled state, a gap 42 in the length direction of the valve casing 12 is provided between the built-in recess 41 and the small diameter body 13, and this gap 42
Thus, the thermal expansion of the valve casing body 12A in the length direction can be absorbed. Further, the valve pin support portion 31 is provided on the tip end side of the valve casing body 12A. Further, the outer peripheral surface of the valve pin 25 slidably contacts the inner edge of the valve pin support portion 31A formed in the valve casing small-diameter body 13. The valve casing small diameter body 13 is a proximal end material passage having the same diameter as the material passage 15.
43 and a gate side material passage 44 which is smaller in diameter and continuous with the gate 14, and the valve pin support portion 31A is provided in the gate side material passage 44. As shown in FIGS. 1 and 2, when the gate closing portion 27 is retracted from the gate 14, the pin body 26 of the valve pin 25 is supported by the valve pin support portion 31, and when the gate closing portion 27 is closed, the valve pin 25 is closed.
The pin body 26 of 25 is supported by both valve pin support portions 31, 31A. Similar to the valve pin support portion 31, the valve pin support portion 31A is composed of a plurality of radial support blades 32A, and between these support blades 32A, a recess that connects the base end side material passage 43 and the gate 14 is formed. A groove 33A is formed.

The dimensional difference (D ₃ -D ₂ ) between the inner diameter dimension D ₃ of the fitting portion of the valve pin support portion 31 A and the outer diameter dimension D ₂ of the pin body 26, which is the fitting portion of the valve pin 25, is calculated as follows. 14
It is set to be smaller than the dimensional difference (d ₁ -d ₂ ) between the inner diameter dimension d ₁ and the outer diameter dimension d ₂ of the gate closing portion 27 which is the fitting portion of the valve pin 25.

Next, the operation of the above configuration will be described. First, the fixed mold 1 and the movable mold 2 are closed, a product cavity 3 is formed between the fixed mold 1 and the movable mold 2, and then the valve pin 25 is moved away from the movable mold 2 to open the gate 14. To do. Then, a molten thermoplastic resin, which is a thermoplastic molding material, is injected into the fixed mold 1 from the injection molding machine. The resin passes through the runner 24 of the manifold 20, the material passage 15 in the valve casing 12, the concave groove portion 33 between the support blades 32 with which the valve pin 25 is fitted, and the gate 14 at the tip of the valve casing 12. Flow into the product cavity 3. After the resin is filled in the product cavity 3 as described above, the valve pin 25 moves toward the movable mold 2 through the holding pressure and is fitted into the gate 14 to close the gate 14. Then, after the resin in the product cavity 3 is cooled and solidified, the fixed mold 1 and the movable mold 2 are opened to take out the resin in the product cavity 3, that is, the molded product. Then, the mold is closed again and the above molding cycle is repeated.

In such a molding cycle, the gate
The valve pin 25 opens and closes while being guided and supported by valve pin support portions 31 and 31A provided on the gate 14 side of the valve casing 12. Here, since the pin body 26 and the gate closing portion 27 of the valve pin 25 are formed on the valve pin 25, the pin body 26 and the gate closing portion are formed.
The axis center with 27 can be set accurately. Further, in this example, since the gate 14 and the valve pin support portions 31 and 31A are provided in the valve casing 12, the axes of the gate 14 and the valve pin support portions 31 and 31A can be accurately set.
Then, by setting the dimensional difference between the valve pin support portions 31, 31A and the pin body 26 to be smaller than the dimensional difference between the gate 14 and the gate closing portion 27, the valve pin support portions 31, 31
By fitting A with the pin body 26, the gate closing portion 27 is aligned with the gate 14 with high accuracy. Therefore, the fit between the gate 14 and the pin body 26 can be set relatively looser than in the conventional case, the friction between the gate 14 and the pin body 26 can be reduced, and the occurrence of wear in the gate 14 can be reduced.

As described above, in this embodiment, according to the first aspect, the fixed mold 1 and the movable mold 2, which are a plurality of mold bodies which are opened and closed to form the product cavity 3 between the mold cavities when the molds are closed,
The stationary mold 1 is provided with a valve device 11 for opening and closing a gate 14 which communicates the material passage 15 with the product cavity 3. The valve device 11 forms the material passage 15 therein and connects the material passage 15 with the material passage 15. The valve casing 12 is provided with a band heater 16 as a heating means for heating, and a valve pin 25 for opening and closing the gate 14, and the valve casing 12 is
A valve pin support portion 31, 31A formed on the gate 14 side and slidably supporting the valve pin 25 is provided.
Dimensional difference between the fitting part of 31A and valve pin 25 (D ₁ −
Since D ₂ ) and (D ₃ −D ₂ ) are smaller than the dimensional difference (d ₁ −d ₂ ) of the fitting portion between the gate 14 and the valve pin 25, the valve pin support portions 31 and 31A prevent the gate pin from closing the gate portion of the valve pin 25. 27
Is reliably aligned with the gate 14, and the clearance between the gate 14 and the gate closing portion 27 can be made larger than in the conventional case, and the friction between the gate 14 and the valve pin 25 is reduced. Occurrence of wear can be reduced.

As described above, in this embodiment, the gate closing portion 27 is provided at the tip of the valve pin 25 in accordance with claim 2.
Since the valve pin support portions 31 and 31A support the pin body 26, which is a portion having a larger diameter than the gate closing portion 27, it is easier to improve the alignment accuracy than when supporting a portion having a smaller diameter. Gate closing part 27 by support parts 31 and 31A
Can be reliably positioned.

As described above, in this embodiment, the gate 14 is provided at the tip of the valve casing 12 in accordance with claim 3.
Since the valve casing 12 and the valve pin 25 are aligned with each other,
The centering of 25 can be performed accurately.

FIG. 5 shows a second embodiment of the present invention.
The same parts as those in the first embodiment are designated by the same reference numerals and detailed description thereof will be given.
Explaining the explanation in detail, this example is a valve casing.
The valve case is not provided on the small diameter body 13
The valve pin support portion 31 is provided on the tip side of the housing main body 12A.
Provided ・ Inner diameter of fitting part of valve pin support 31
D₁And the outer diameter of the pin body 26 that is the fitting part of the valve pin 25
Dimension D₂Dimensional difference with (D ₁-D₂) Is the inner diameter of the gate 14
Law d₁Gate closing part 27 that is a fitting part of the valve pin 25 and the valve pin 25
Outer diameter dimension d₂Dimensional difference with (d₁-D₂) Set smaller than
By doing so, the same operation and effect as those of the first embodiment described above.
Play.

FIG. 6 shows a third embodiment of the present invention, in which the same parts as those in the first embodiment are designated by the same reference numerals and detailed description thereof will be omitted. The valve pin support portion 31B is provided in the valve casing small diameter body 13 without providing the valve pin support portion 12A. As shown in FIG. 6, even when the gate closing portion 27 is retracted from the gate 14 (position farthest from the gate 14), the pin body 26 of the valve pin 25 is supported by the valve pin support portion 31B, and the gate 14 is closed. The pin body 27 of the valve pin 25 is supported by the valve pin support portion 31B. The small-diameter body 13 is formed longer than that of the first embodiment, and the valve pin support portion 31B is provided over almost the entire length except for the vicinity of the gate 14, and the valve pin support portion 31B is provided.
Similarly to the valve pin support portion 31, it is also constituted by a plurality of radial support blades 32B, and a concave groove portion 33B for communicating the material passage 15 and the gate 14 between the support blades 32B.
Are formed.

Then, the dimensional difference (D ₃ -D ₂ ) between the inner diameter dimension D ₃ of the fitting portion of the valve pin support portion 31B and the outer diameter dimension D ₂ of the pin body 26, which is the fitting portion of the valve pin 25, is given by: dimensional difference between the outer diameter d ₂ of the gate closure portion 27 is a mating portion of the inner diameter d ₁ and the valve pin 25 of the gate 14 (d ₁ -d ₂₎
Since it is set smaller, the same operation and effect as those of the above-described embodiment can be obtained.

The present invention is not limited to the above embodiment, but various modifications can be made. For example,
In the above embodiment, the valve casing small-diameter body is detachable, but the valve casing may be one in which the valve casing main body and the valve casing small-diameter body are integrated. Further, in the embodiment, although the valve casing is provided with the gate, the casing bush 7
May be provided with a gate, or the gate may be provided with a cavity member forming the product cavity.

[0028]

According to the invention of claim 1, the valve casing includes a valve pin support portion formed on the gate side and slidably supporting the valve pin, and a fitting portion between the valve pin and the valve pin support portion. By making the size difference between the valve pin and the gate smaller than the size of the fitting part, the valve pin support part ensures that the valve pin is aligned with the gate, and the clearance between the gate and the valve pin is larger than before. Can be taken
Friction between the gate and the valve pin is reduced, and the occurrence of wear on the gate can be reduced.

According to the second aspect of the present invention, since the gate closing portion is provided at the tip end portion of the valve pin and the valve pin supporting portion supports a portion larger in diameter than the gate closing portion, the valve pin supporting portion is used. The gate closing portion can be positioned reliably.

According to the invention of claim 3, the gate is provided at the tip of the valve casing, and the gate is provided in the valve casing to align the valve casing with the valve pin. With respect to the valve pin, the centering of the valve pin can be accurately performed.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a first embodiment of a valve gate type mold device of the present invention.

FIG. 2 is a sectional view of the vicinity of the gate of the same.

FIG. 3 is a cross-sectional view showing a valve pin support portion of the above valve device.

FIG. 4 shows a valve gate mold apparatus of the present invention, and FIG.
FIG. 4A is a sectional view of a main part of a valve pin support portion, and FIG. 4B is a sectional view of a pin body of the valve pin.

FIG. 5 is a cross-sectional view of the vicinity of a gate showing a second embodiment of the valve gate mold apparatus of the present invention.

FIG. 6 is a sectional view in the vicinity of a gate showing a third embodiment of the valve gate mold apparatus of the present invention.

[Explanation of symbols]

1 Fixed type 2 movable type 3 product cavity 11 Valve device 12 valve casing 14 gates 15 Material passage 16 Heater (heating means) 25 valve pin 26 pin body 27 Gate block 31 Valve pin support 31A Valve pin support 31B Valve pin support

Claims (3)

[Claims] 1. A plurality of molds which are opened and closed to form product cavities between them when the molds are closed, and a valve device which opens and closes a gate for communicating a material passage provided in the molds with the product cavities. The valve device has a valve casing having a material passage formed therein and heating means for heating the material passage, and a valve pin for opening and closing the gate, and the valve casing is formed on the gate side. And a valve pin support portion slidably supporting the valve pin, wherein a dimensional difference between a fitting portion between the valve pin support portion and the valve pin is smaller than a dimensional difference between a fitting portion between the gate and the valve pin. Valve gate type mold device. 2. The valve gate mold apparatus according to claim 1, wherein a gate closing portion is provided at a tip end portion of the valve pin, and the valve pin supporting portion supports a portion having a diameter larger than the gate closing portion. . 3. The valve gate mold apparatus according to claim 1, wherein the gate is provided at the tip of the valve casing.