KR102089368B1 - Block Type Resin Providing Apparatus for Injection Molding of Thermosetting Resin - Google Patents

Abstract

The present invention relates to an injection mold for injecting a thermosetting resin. More specifically, the present invention relates to a block-type resin supply device for injecting a thermosetting resin, which can prevent curing of resin in the resin supply unit due to heat by forming structure of a resin supply unit in a block shape to spatially separate a block-type resin supply unit from the mold, thereby blocking heat of a mold unit having a cavity formed therein from being transferred to the resin supply unit of the injection mold. To achieve the purpose, the block-type resin supply device according to the present invention, in a thermosetting resin mold which includes an upper mold having a first core provided therein and a lower mold positioned on the bottom of the upper mold and having a second core provided thereinto form a cavity, i.e., a space for producing a molded product along with the first core, includes: a runner block which is positioned on the top of the upper mold, and in the center of which a resin inlet for flowing in the resin is formed to flow the resin to a nozzle unit; and the nozzle unit which is installed to be fixed to the runner block to supply the resin to the cavity, wherein the runner block has a plurality of branch units radially formed therein, a resin transfer line for flowing the resin flown in the resin inlet is longitudinally formed inside the branch units, and a fixing groove, to which an upper end portion of the nozzle unit is connected and fixed, is formed in a lower end portion of the branch units.

Description

Block Type Resin Providing Apparatus for Injection Molding of Thermosetting Resin for thermosetting resin injection

The present invention relates to an injection mold for injecting a thermosetting resin, and more specifically, by constructing a structure of a resin supply unit in a block shape, spaced apart the block-type resin supply unit from the mold, so that a cavity is formed in the resin supply unit of the injection mold. The present invention relates to a block-type resin supply device for injection of a thermosetting resin capable of preventing heat from being transferred to a portion to prevent curing of a resin in a resin supply unit by heat.

In general, recently processed liquid thermosetting resins are used in various ways as well as intrinsic use and as the price of raw materials decreases, and these liquid thermosetting resins have good storage because they do not require a pre-preparation process of raw materials, and are thus molded. The working environment of the city is good, and the number of molds required for injection molding can be reduced by that amount, so productivity is high, so it is used such as grammets, plug boots, heat-resistant packings, thermos packing, lunch box packing and wire seal, inner seal. Applications are gradually spreading.

On the other hand, the mold apparatus for performing injection molding using the above-mentioned thermosetting resin, as described in Patent Publication No. 10-2013-0119062, the resin on the flow path through which the resin flows can be prevented from curing with the molded article A mold device is provided, the upper mold having the upper core, the lower mold having the lower core forming the cavity together with the upper core, the resin to be supplied to the cavity flows, the nozzle installed in the upper mold, and the resin of the injection machine flows through the nozzle A runner plate for forming an upper runner to be formed, a lower runner formed by the upper core and the lower core and guiding resin injected from the nozzle to the cavity, a cooling channel is formed in the runner plate, and a resin flow path and cooling in the nozzle A flow path is formed.

However, although this structure was able to prevent the resin on the flow path from being cured to some extent by a nozzle having a special structure for blocking heat transfer, the runner plate constituting the flow path still remains with the upper mold. It is a structure in which a part of the heat of the mold is forced to pass through the insulating plate placed between them by making a surface contact.

In addition, the fixed plate constituting the resin injection part and the resin flow path and the runner plate are formed in surface contact with each other, and a leak occurs along the contact surface using an O-ring or a gasket between the cooling flow path formed in the runner plate and the cooling flow path formed in the nozzle. Since it is configured to prevent, the water leakage prevention function is weakened due to long-term use, resulting in a decrease in the quality of molded products due to water leakage and a short time to replace expensive molds.

Republic of Korea Patent Publication No. 10-2013-0119062 has been published.

The present invention has been devised to solve the problems of the prior art as described above, and the purpose of the technical configuration of the present invention is to construct the structure of the resin supply unit into a block type, thereby spatially separating the block-type resin supply unit from the mold and injecting it. It is to provide a block-type resin supply device for injection of a thermosetting resin that can prevent heat transfer of the resin in the resin supply unit by preventing heat from being transferred to the mold supply unit in the resin supply unit of the mold.

Other other objects of the present invention can be achieved by the detailed description of the present invention described with reference to the accompanying drawings.

The present invention for achieving this object is provided with a lower mold provided with a second core to form a cavity that is a space where a molded product is formed, and an upper mold provided with a first core and a lower mold located at the lower portion of the upper mold. A thermosetting resin mold comprising: a runner block positioned above the upper mold and having a resin inlet through which resin is introduced into the center to flow the resin to the nozzle unit; And a nozzle part fixedly installed in the runner block to supply resin to the cavity, wherein the runner block includes a plurality of branch portions formed in a radial direction and flows into the resin inlet in the longitudinal direction of the branch portion. A resin transfer line for flowing the resin is formed, and a fixing groove for connecting and fixing the upper end of the nozzle portion is formed at the lower end portion, and the resin transfer line is formed by a hole by drilling, and in the center, a certain depth of the runner block A center vertical hole is formed in the vertical direction up to, and a horizontal hole is formed in a horizontal direction so as to penetrate from the side of each branch to the end of the center vertical hole, and an outer vertical hole is formed from the lower surface of the end of each branch to the horizontal hole. It is formed to pass through each other and seal the ends of the horizontal holes, and the longitudinal direction of the branch A plurality of cooling lines through which coolant flows is formed inside the furnace, and lines are formed in a direction parallel to the resin transport line by communicating between branch parts adjacent to each other, and are drilled in a form surrounding the resin transport line. A hole is formed, and the nozzle body is formed with a nozzle body in which a resin flow path is formed, and at the upper end of the nozzle body, a nozzle head is formed to be connected and fixed in a fixed groove formed in the branching part of the runner block to be fixed and inserted. A fixed support portion is fixed to an upper portion of the block, and a spacer block is provided between the fixed support portion and the upper mold so that the runner block is spaced in a non-contact state with the upper mold, and the end of the nozzle portion penetrates the second core. With a certain height inserted into the residue removal rod that is cured at the end of the nozzle portion to remove the residual residue Included, the residue removal rod is installed in the pinhole formation position of the product, characterized in that the ring-shaped removal end is further formed in the portion inserted into the end of the nozzle portion.

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According to the present invention, by spatially separating the runner block and the upper mold, it is possible to prevent heat from being transferred to the mold to prevent the resin from curing by heat.

In addition, by forming a plurality of cooling lines through which coolant flows inside the runner block, it is possible to more effectively prevent the resin flowing through the resin transfer line from curing.

In addition, since the runner block is manufactured by drilling in a single block, leakage from the cooling line can be prevented radically and the need for cleaning can be eliminated.

In addition, by forming a mounting hole larger than the outer diameter of the nozzle portion in the upper mold and the first core so that the nozzle portion does not come into contact with the upper mold and the first core, heat transfer by conduction can be minimized, and thus the block type resin supply device and the nozzle portion Most of the resin in the inside is not cured and can be used for the next injection made after mold opening.

1 is a side configuration diagram schematically showing a block-type resin supply device for injection of a thermosetting resin according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view showing the runner block, the nozzle unit, and the first and second cores of FIG. 1.
3 is a bottom perspective view of FIG. 2.
4 is a perspective view showing the internal configuration of the runner block of FIG. 2, (a) shows that a resin transfer line is formed inside the runner block, and (b) shows that a cooling line is formed inside the runner block. , (c) shows that both the resin transfer line and the cooling line are formed inside the runner block.
5 is a configuration diagram schematically showing a state in which a residue removal rod is applied to a second core as another embodiment of the present invention.

The present invention can be applied to various changes and can have various embodiments, and specific embodiments will be illustrated in the drawings and described in the detailed description.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals are used for similar components.

Terms including ordinal numbers such as second and first may be used to describe various components, but the components are not limited by the terms.

The terms used in this specification are used only for the purpose of distinguishing one component from other components. For example, the second component may be referred to as a first component without departing from the scope of the present invention, and similarly, the first component may also be referred to as a second component. The term and / or includes a combination of a plurality of related described items or any one of a plurality of related described items.

When an element is said to be "connected" or "connected" to another component, it is understood that other components may be directly connected to or connected to the other component, but other components may exist in the middle. It should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that no other component exists in the middle.

The terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "include" or "have" are intended to indicate the presence of features, numbers, steps, actions, components, parts or combinations thereof described herein, one or more other features. It should be understood that the existence or addition possibilities of fields or numbers, steps, operations, components, parts or combinations thereof are not excluded in advance.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains. Terms such as those defined in a commonly used dictionary should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

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

1 is a side configuration diagram schematically showing a block-type resin supply device for injection of a thermosetting resin according to an embodiment of the present invention, and FIG. 2 is a runner block, a nozzle part, a first core, and a second core of FIG. 1. 3 is an exploded perspective view, and FIG. 3 is a bottom perspective view of FIG. 2, and FIG. 4 is a perspective view showing the internal structure of the runner block of FIG. 2, (a) showing that a resin transfer line is formed inside the runner block, ( b) shows that a cooling line is formed inside the runner block, and (c) shows that both a resin transfer line and a cooling line are formed inside the runner block.

Referring to Figures 1 to 4, the block-type resin supply device 10 for injection of a thermosetting resin according to the present invention is as follows.

First, according to the present invention, since the structure of the resin supply unit is formed in a block form, the block-type resin supply unit is spatially spaced from the mold, so that the heat of the mold portion where the cavity is formed in the resin supply unit of the injection mold is transferred, so that the resin in the resin supply unit is heated. It relates to a block-type resin supply device for injection of a thermosetting resin that can be prevented from being cured by, such a block-type resin supply device for injection of a thermosetting resin (10) is provided with a first core 310 upper mold (300) ), The lower mold 400 is provided at the bottom of the upper mold 300, the second core 410 is formed with the first core 310 to form a cavity (C) is a space where a molded article is generated. In a thermosetting resin mold comprising a, it is located on top of the upper mold 300, the resin inlet 101 is formed to flow the resin in the center is formed to flow the resin to the nozzle unit 200 It is configured to include a nozzle block 200 that is fixed to the runner block 100 and the runner block 100 to supply resin to the cavity C.

In addition, the runner block 100 is formed with a plurality of branch portions 110 in the radial direction, the resin flowing into the resin inlet 101 in the longitudinal direction of the branch portion 110 to the nozzle portion 200 The resin transfer line 120 for flowing is formed.

At this time, the resin transfer line 120 is formed by a drill process, the center vertical hole 121 is formed in the vertical direction to a certain depth of the runner block 100 in the center, the center vertical hole from the side of each branch ( 121) horizontal holes 122 are formed in the horizontal direction so as to penetrate through the ends of the 121, the outer vertical holes 123 are formed to penetrate through each other from the lower surface of the end of each branch portion 110 to the horizontal hole 122, By sealing the end of the horizontal hole 122, the resin transfer line 120 inside the runner block 100 may be formed.

Accordingly, the resin 20 flowing into the resin inlet 101 is branched through the lower end of each branch 110.

In addition, a plurality of cooling lines 130 in which cooling water flows may be formed in the longitudinal direction of each branch 110.

The plurality of cooling lines 130 may also be formed by drilling by the same process as the resin transfer line 120, and lines are formed so as to communicate between adjacent branches, and the plurality of cooling lines 130 It is configured to wrap around the resin transfer line 120 to prevent the resin from curing.

In addition, a fixing groove 140 is formed at a lower end of the branch 110 so that the nozzle head 220 of the nozzle unit 200 is connected and fixed in a state in which a predetermined depth is inserted and seated.

The nozzle unit 200 is a nozzle body 210 is formed in the longitudinal direction, the upper end of the nozzle body 210 is inserted into a fixed depth formed in the fixing groove 140 formed in the branch 110, the nozzle head is fixed 220 is formed. At this time, a resin supply path 230 through which the resin 20 is supplied is formed in the center of the nozzle body 210 and the nozzle head 220.

In addition, a fixed support portion 500 for supporting the runner block 100 is fixed to the upper portion of the runner block 100 described above, and the runner block 100 is provided between the fixed support portion 500 and the upper mold 300. The upper mold 300 is provided with a spacer block 600 that supports the fixed support portion 500 to be spaced apart from the non-contact state. Accordingly, heat transfer from the high temperature upper mold 300 is minimized to prevent the resin flowing through the runner block 100 from curing.

On the other hand, it is preferable that the opening hole 510 is formed in the center of the fixed support part 500 to communicate with the resin inlet 101 to introduce resin into the resin inlet 101.

In addition, mounting holes 301 and 311 are formed in the upper mold 300 and the first core 310 so that the nozzle body 210 of the nozzle unit 200 can be penetrated and mounted.

At this time, each mounting groove (301, 311) is preferably formed slightly larger than the outer diameter of the nozzle body (210). The reason is that the nozzle body 210 for supplying the resin prevents the conduction of heat due to the contact between the high temperature upper mold 300 and the first core 310, so that the injection of the molded article 11 is completed and the next injection is immediately started when the mold is started. This is to allow the cycle to proceed.

5 is a configuration diagram schematically showing a state in which a residue removal rod is applied to a second core as another embodiment of the present invention.

Referring to FIG. 5, the block-type resin supply device 10 for injection of a thermosetting resin according to another embodiment is as follows, and a part that can be replaced by the description of one embodiment described above will be omitted.

According to another embodiment of the present invention, the remaining residue 21 cured at the end of the nozzle unit 200 connected to the first core 310 and provided through the second core 410 described above is cured. The residue removal rod 700 that effectively removes is further included.

At this time, the residue removal rod 700 is inserted into a certain height to the end of the nozzle unit 200 is cured to form a ring-shaped removal stage 710 to easily remove the remaining residue.

That is, the residue removal rod 700 is cured at the end of the nozzle unit 200 to remove the residual residue to use the remaining uncured resin (20).

In addition, although the residue removal rod 700 is not shown in the drawing, the function of the operation pin for pinhole generation at the position where the pinhole is formed in the product is enhanced, and the residue 21 is removed after pinhole creation and product molding. Both functions can be performed.

Although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific embodiments described above, and is not limited to the specific embodiments described above, and is not limited to the gist of the present invention as claimed in the claims. Various modifications can be carried out by a knowledgeable person. In addition, matters that can be easily inferred from the accompanying drawings should be regarded as being included in the contents of the present invention even if not described in the detailed description, and various modified embodiments are individually understood from the technical spirit or prospect of the present invention. No.

The technical idea of the block-type resin supply device for injection of a thermosetting resin of the present invention is that the same result can be repeatedly executed, and in particular, by carrying out the present invention, it is possible to promote technological development and contribute to industrial development, so it is well worth protecting. have.

10: Block type resin supply device for injection of thermosetting resin
100: runner block 101: resin inlet
110: branch 120: resin transfer line
130: cooling line 140: fixing groove
200: nozzle unit 210: nozzle body
220: nozzle head 230: resin supply path
300: upper mold 310: first core
400: lower mold 420: second core
500: fixed support 600: separation block
700: residue removal rod 710: removal stage

Claims (5)

In the thermosetting resin mold comprising an upper mold provided with a first core, and a lower mold provided with a second core that is located below the upper mold and forms a cavity in which a molded product is generated together with the first core,
A runner block located above the upper mold and having a resin inlet through which resin is introduced into the center to flow the resin to the nozzle unit; And
Includes; fixedly installed in the runner block to supply the resin to the cavity;
The runner block,
A plurality of branch portions are formed in the radial direction, and a resin transfer line for flowing the resin flowing into the resin inlet is formed in the longitudinal direction of the branch portion, and a fixing groove for connecting and fixing the upper end of the nozzle portion is formed in the lower portion. ,
The resin transfer line is formed by a hole through a drill process, and a center vertical hole is formed in a vertical direction up to a certain depth of the runner block, and horizontally horizontally penetrated from the side of each branch to the end of the center vertical hole. A hole is formed, and an outer vertical hole is formed from the lower surface of the end of each branch to the horizontal hole to penetrate each other, and a method of sealing the ends of the horizontal hole is formed.
A plurality of cooling lines in which cooling water flows is formed in the longitudinal direction of the branch portion, and is formed in communication with the branch portions adjacent to each other to form a line in a direction parallel to the resin transfer line and surrounding the resin transfer line. The hole is formed by drilling,
The nozzle portion is formed of a nozzle body is formed a resin flow path, the upper end of the nozzle body is formed with a nozzle head to be fixed and fixed to be inserted into a fixed depth formed in the fixing groove formed in the branch of the runner block,
A fixed support portion is fixed to an upper portion of the runner block, and a spacer block is provided between the fixed support portion and the upper mold so that the runner block is separated from the upper mold in a non-contact state,
It includes a residue removal rod which is inserted into the end of the nozzle portion in a state penetrated into the second core and cured at the end of the nozzle portion to remove the residual residue.
The residue removal rod is installed at the pinhole formation position of the product, the block-type resin supply device for thermosetting resin injection, characterized in that the ring-shaped removal end is further formed in the portion inserted into the end of the nozzle portion.
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