KR100507480B1 - A hot runner device for injection molding - Google Patents

Abstract

      The structure of the contact means is composed of a separate pressure plate that is in contact with the two inclined surfaces to generate a close contact with the sprue bush in the hot runner block in the normal direction with respect to the thermal expansion direction of the hot runner block, and at the same time the runner of the sprue bush Expanding the diameter of the runner tip of the hot runner block corresponding to the portion so that the path of the resin due to thermal expansion is always maintained;

A stationary plate of a mold for forming an outer surface of the product; A sprue bush mounted to the fixed plate through an installation hole and having a runner formed therein and having a heater formed on an outer circumferential surface thereof; A fixed side mounting plate for fastening the fixed mold plate to be mounted on a fixed die of an injection molding machine; A hot runner block mounted on a space portion between the fixed side mounting plate and the fixed mold plate, wherein a runner connected to the runner of the sprue bush is formed therein and a heater is formed around the runner; In the hot runner apparatus for injection molding comprising a close means interposed between the hot runner block and the fixed side mounting plate to closely contact the hot runner block and the sprue bush,

The contact means is fastened to the hot runner block, the outer end surface is formed on the inclined surface movable side pressure plate; It is fastened to the fixed side mounting plate, the outer end surface is provided with a hot runner device for injection molding, characterized in that the inclined surface corresponding to the inclined surface of the movable side pressure plate made of a fixed side pressure plate in contact with each other.

Description

Hot runner device for injection molding {A HOT RUNNER DEVICE FOR INJECTION MOLDING}

The present invention relates to a hot runner device for injection molding, and more particularly, to an injection molding hot runner device for molding a plastic resin by injection into a mold in a molten state.

In general, a hot runner device used in an injection molding machine constitutes a path for the molten resin to reach a cavity forming a product part in a mold. The hot runner block and the sprue bush are fixed. It is comprised between the side mounting plate and the stationary plate which forms the external surface of a product, and forms a runner.

In such a hot runner device, a heat source is installed to maintain an appropriate temperature of resin (usually 180 ° C. to 250 ° C.) so that resin flows from the injection molding machine to the mold cavity in a molten state. A heater is mainly used, a cartridge heater is mainly used for the hot runner block, and a band type heater is used for the sprue bush.

Looking at the configuration of the conventional hot runner device in detail with reference to Figure 1,

First, a fixed mold plate 101 of a mold for forming an outer surface 103 of a product is provided, and a sprue bush 107 is inserted into the fixed mold plate 101 through an installation hole 105 to runner (inside). 109; refers to a path through which the resin in the molten state is injected to reach the product part cavity, and a heater 111 is provided on the outer circumferential surface thereof.

In addition, a fixed side mounting plate 113 for fastening the fixed mold 101 to be mounted on a fixed die of an injection molding machine (not shown) is configured, between the fixed side mounting plate 113 and the fixed mold 101. The space 115 is formed in the hot runner block 117.

The hot runner block 117 has a runner 109 which is a path through which resin flows from the injection molding machine (not shown) to the cavity 100 and is formed to match the runner 109 of the sprue bush 107. Is fastened, and is configured to increase the temperature by inserting the heater 119 in the interior of the hot runner block 117.

A space ring 121 is interposed between the hot runner block 117 and the fixed side mounting plate 113 to close the hot runner block 117 and the sprue bush 107 so that the resin leaks. Will be prevented.

However, after the mold is mounted in the injection molding machine, the mold is subjected to a preheating process. At this time, the hot runner block 117 and the sprue bush 107 inside the mold are heated to an appropriate temperature. The runner block 117 and the sprue bush 107 cause thermal expansion.

The thermal expansion is different depending on the rising temperature * thermal expansion coefficient (11 × 10 ^-6 ) * length, the sprue bush 107 is inserted into the stationary plate 103, there is little flow amount, but hot runner block ( 117 shows a phenomenon in which it extends in the longitudinal direction (arrow) by thermal expansion.

That is, the runner 109 inside the hot runner block 117 is displaced from the runner 109 in the sprue bush 107 by the longitudinal flow amount, and the space ring 121 is fixed to the stationary plate 101. By fastening the fixed side mounting plate 113, the hot runner block 117 and the sprue bush 107 are brought into close contact with each other to prevent the resin from leaking from the shifted runner 109. If the role of the space ring 121 is not properly performed, the resin will leak and develop into problems such as product non-molding, connection of the heater 111.

Therefore, the present invention was created in order to solve the above problems, an object of the present invention consists of a separate pressure plate in contact with the two inclined surfaces of the structure of the contact means hot runner in the normal direction with respect to the thermal expansion direction of the hot runner block For injection molding to generate adhesion to the sprue bush on the block, and at the same time, to increase the diameter of the runner tip of the hot runner block corresponding to the runner of the sprue bush to always maintain the path of the resin due to thermal expansion. It is to provide a hot runner device.

The injection molding hot runner device for achieving the above object comprises a fixed mold plate of the mold to form the outer surface of the product; A sprue bush mounted to the fixed plate through an installation hole and having a runner formed therein and having a heater formed on an outer circumferential surface thereof; A fixed side mounting plate for fastening the fixed mold plate to be mounted on a fixed die of an injection molding machine; A hot runner block mounted on a space portion between the fixed side mounting plate and the fixed mold plate, wherein a runner connected to the runner of the sprue bush is formed therein and a heater is formed around the runner; In the hot runner apparatus for injection molding comprising a close means interposed between the hot runner block and the fixed side mounting plate to closely contact the hot runner block and the sprue bush,

The contact means is fastened to the hot runner block, the outer end surface is formed on the inclined surface movable side pressure plate; It is fastened to the fixed side mounting plate, the outer end surface is characterized in that the inclined surface corresponding to the inclined surface of the movable side pressure plate is formed of the fixed side pressure plate in contact with each other,

Each inclination angle of the movable side pressure plate and the fixed side pressure plate is made of the same angle, characterized in that set within the range of 0.5 ° 1.5 °,

The movable side pressing plate and the fixed side pressing plate are respectively fastened to the hot runner block and the fixed side mounting plate by fastening holes, respectively, and fastened with fastening bolts.

The runner connection portion of the hot runner block connected to the runner of the sprue bush is characterized in that the expanded portion of the runner diameter of the tip portion is larger than the runner diameter of the sprue bush.

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

Figure 2 is a cross-sectional view of the injection molding hot runner device according to an embodiment of the present invention, the configuration of the injection molding hot runner device according to an embodiment of the present invention is a fixed mold plate of the mold forming the outer surface (1) of the product (3) is provided, the sprue bush (7) is inserted into the stationary plate 3 through the installation hole (5) runner (9; the molten resin is injected into the path to reach the product part cavity) The heater 11 is installed on the outer circumferential surface thereof.

And a fixed side mounting plate 13 for fastening the fixed plate 3 to be mounted on a fixed die of an injection molding machine (not shown), between the fixed side mounting plate 13 and the fixed plate 3. The space 15 is formed in the hot runner block 17 is installed.

The hot runner block 17 has a runner 9, which is a path through which resin flows from an injection molding machine (not shown) to the cavity 10, is formed to coincide with the runner 9 of the sprue bush 7. It is fastened and configured to increase the temperature by inserting a heater 19 in the interior of the hot runner block 17.

Here, the runner connecting portion B of the hot runner block 17 connected to the runner 9 of the sprue bush 7, as shown in FIG. 4, has a runner diameter D of the tip portion thereof. An expansion pipe 23 is formed which is larger than the runner diameter d of the loose bush 7.

For example, if the runner diameter d of the sprue bush 7 is 16 mm, the runner connecting portion B of the hot runner block 17 corresponding to the spout bush 7 has the runner diameter D of the expansion portion 23 of the distal end portion thereof. When the hot runner block 17 is extended in the longitudinal direction (arrow) by thermal expansion, the runner 9 inside the hot runner block 17 is sprueed by its longitudinal flow amount. It is formed so as not to interfere with the runner 9 in the bush 7 so as not to disturb the flow of resin.

In addition, the hot runner block 17 and the fixing side mounting plate 13 are interposed between the hot runner block 17 and the sprue bush 7 to prevent the resin from leaking. As shown in FIG. 3, the movable side pressure plate 25 is fastened to the hot runner block 17, and the outer end surface of the movable side pressure plate 25 is formed as an inclined surface 29.

In addition, a fixed side pressure plate 27 is fastened to the fixed side mounting plate 13, and the fixed side pressure plate 27 has an inclined surface whose outer end surface corresponds to the inclined surface 29 of the movable side pressure plate 25. 31 is formed in contact with each other.

Here, the inclination angle (θ) of the movable side pressure plate 25 and the fixed side pressure plate 27 is made of the same angle, preferably set within the range of 0.5 ° 1.5 °, but is not limited thereto. When the adhesion force against thermal expansion of the hot runner block 17 is to be realized in a wide range. When the inclination angle θ is made smaller, the adhesion force against thermal expansion of the hot runner block 17 is to be realized in a narrow range. The inclination angle (??) can be increased by adjusting.

In addition, the movable side pressure plate 25 and the fixed side pressure plate 27 respectively process the fastening holes 33 on the inner side to the fastening bolts 35 on the hot runner block 17 and the fixed side mounting plate 13, respectively. It is preferred to be fastened.

Therefore, in the injection molding hot runner device having the configuration as described above, after the mold is mounted on an injection molding machine (not shown), the hot runner block 17 and the sprue bush 7 inside the mold through a mold preheating process. ) In the process of raising the temperature to a proper temperature, when the hot runner block 17 and the sprue bush 7 causes thermal expansion, the sprue bush 7 is inserted into the fixed plate 3 so that there is little flow amount The hot runner block 17 shows a phenomenon in which the hot runner block 17 extends in the longitudinal direction (arrow of FIG. 4) by thermal expansion.

At this time, the runner 9 inside the hot runner block 17 is within the range of the runner 9 in the sprue bush 7 at a certain range with the runner connecting portion B by the longitudinal flow amount thereof. The expansion part 23 of the hot runner block 17 keeps the connection state of the sprue bush 7 and the runner 9 without misalignment so as not to disturb the flow of the resin.

At the same time, the flow amount ?? in the longitudinal direction due to thermal expansion of the hot runner block 17 causes the movable side pressure plate 25 to be fixed with respect to the fixed side pressure plate 27 as shown by the dotted line in FIG. 3. As a result, the hot runner block 17 is operated to prevent the leakage of the resin by further increasing the adhesion force of the hot runner block 17 against the sprue bush 7.

That is, with respect to the fixed side pressure plate 27, the movable side pressure plate 25 is connected to the sprue bush 7 in the hot runner block 17 in the normal direction f2 with respect to the thermal expansion direction f1 of the hot runner block 17. By operating to generate adhesion to), it is to prevent the resin from leaking out.

According to the hot runner apparatus for injection molding according to the present invention as described above, the structure of the contact means is composed of a separate pressure plate in contact with the two inclined surfaces to sprue the hot runner block in the normal direction with respect to the thermal expansion direction of the hot runner block At the time of injection molding, an expansion pipe is formed at the tip of the runner of the hot runner block corresponding to the runner of the sprue bush so that the path of the resin due to thermal expansion can be maintained at all times. It improves the moldability and at the same time has the effect of eliminating various problems caused by the leakage of the resin.

1 is a cross-sectional view of a hot runner device for injection molding according to the prior art.

2 is a cross-sectional view of a hot runner device for injection molding according to an embodiment of the present invention.

3 is an enlarged cross-sectional view of part A of FIG. 2.

4 is an enlarged cross-sectional view of a portion B of FIG. 2.

Claims (4)

A stationary plate of a mold for forming an outer surface of the product; A sprue bush mounted to the fixed plate through an installation hole and having a runner formed therein and having a heater formed on an outer circumferential surface thereof; A fixed side mounting plate for fastening the fixed mold plate to be mounted on a fixed die of an injection molding machine; A hot runner block mounted on a space portion between the fixed side mounting plate and the fixed mold plate, wherein a runner connected to the runner of the sprue bush is formed therein and a heater is formed around the runner; In the hot runner apparatus for injection molding comprising a close contact between the hot runner block and the fixed side mounting plate to closely contact the hot runner block and the sprue bush, The contact means A movable side pressing plate which is fastened to the hot runner block and whose outer end surface is formed as an inclined surface; A fixed side pressing plate which is fastened to the fixed side mounting plate and whose outer end surface is in contact with each other by forming an inclined surface corresponding to the inclined surface of the movable side pressing plate; Injection molding hot runner device, characterized in that consisting of. The angle of inclination of the movable side pressure plate and the fixed side pressure plate is An injection molding hot runner device, which is formed at the same angle and is set within a range of 0.5 to 1.5 degrees. The method according to claim 1, wherein the movable side pressure plate and the fixed side pressure plate Injection molding hot runner device, characterized in that the fastening holes in each of the inner fastener block and the fixed side mounting plate is fastened with fastening bolts. The injection runner connection portion of the hot runner block connected to the runner of the sprue bush is formed for injection molding, characterized in that the expansion of the runner diameter of the tip portion is larger than the runner diameter of the sprue bush. Hot runner device.