KR101283509B1 - Terminal for insert injection molding - Google Patents

Abstract

The present invention relates to a connection terminal for insert injection molding, and in particular, to prevent contact between the connection terminals, as well as to accurately position the connection terminal in the center of the molding space, to prevent the flow of the connection terminal during injection of molten resin It's about technology.
The insert injection molding connection terminal disclosed in the related art is not only difficult to integrally connect a plurality of connection terminals in a non-contact state, but also difficult to accurately position the plurality of connection terminals at the same time inside the molding space of the injection mold at the same time. In the process of pressurizing and injecting the molten resin, the position of the connection terminal is changed due to a strong pressure, and thus the defective rate of the product is high, and the profitability is deteriorated.
In order to solve this problem, the present invention provides a plurality of connection terminals integrally connected to each other in a non-contact state by means of a gap maintaining connector formed through primary injection molding, and an alignment protrusion formed on the top and bottom of the gap maintaining connector is disposed on top of each other. While being in close contact with the inner surface of the lower mold, so that the connection terminal can be accurately positioned in the center of the molding space, the flow preventing groove formed in the lower end of the fixed position projection is inserted into the flow preventing projection protruding on the inner surface of the lower mold The technical feature of the present invention is to prevent the flow of the connection terminal during the injection molding injection of the connection terminal.

Description

Terminal for insert injection molding

The present invention relates to a technique for preventing contact between the connection terminals, as well as accurately positioning the connection terminal in the center of the molding space, and preventing the flow of the connection terminal when the molten resin is injected.

In general, various covers, which are a kind of automotive parts, have a structure in which a plurality of connection terminals made of copper, aluminum, and the like having excellent electrical conductivity are disposed at a predetermined position inside the molding resin.

In order to manufacture such a cover, a method of insert injection molding is mainly used. A plurality of connection terminals are constantly arranged and fixed in a molding space in an injection mold, and then the molten resin is injected into the molding space to inject the connection terminals and the connection terminals. It has a product form of an integrated molding resin.

As a prior art of inserting a connection terminal into such an injection mold and integrally injection molding, "Patent Registration No. 843356, Name / Insert Injection Molding Connection Terminal" has been proposed.

However, the above-mentioned prior art relates to a technology in which one connection terminal is inserted, and when two or more connection terminals are inserted, electrical shorts are in use during contact when mutual contact is made without maintaining a constant distance between the connection terminals. There is a fear that a large problem is caused.

In addition, the product can be increased only when the product is manufactured in a state in which the connection terminal is precisely disposed in the upper and lower centers of the molding resin, but the completeness of the product can be increased. There is a situation.

In addition, even if the connection terminal is precisely positioned in the center of the molding space of the injection mold, it is difficult to mass-produce the defective rate of the product as the position of the connection terminal is changed by the strong pressure in the process of pressing and injecting the molten resin into the molding space. This leads to a problem that the profitability is significantly reduced.

The present invention is to actively solve all the problems of the prior art, and to connect a plurality of connection terminals integrally connected in a non-contact state through a gap maintaining connector formed through the first injection molding. It is a task.

In addition, it is an object of the present invention to allow the connection terminal to be accurately positioned in the center of the molding space while the alignment projections formed on the upper and lower sides of the gap maintaining connector are in close contact with the inner surfaces of the upper and lower molds, respectively.

In addition, the flow preventing groove formed at the lower end of the positioning protrusion is inserted into the flow preventing projection protruding to the inner surface of the lower mold while preventing the flow of the connection terminal during the injection molding insert of the connection terminal. It is a problem.

The present invention forms a gap retaining connector for integrally connecting the plurality of connection terminals in a spaced apart state through the first injection molding as a means for solving the above problems, and the top and bottom of the gap maintaining connector each of the same height A technique of forming a protrusion is formed, and the bottom surface of the portion of the fixed position projection formed in the lower portion of the gap retaining connector is devised a technique for forming a flow preventing groove in which the flow preventing projection is formed on the inner surface of the lower mold.

In addition, the in-situ projection except for the in-situ projection in which the flow preventing groove is formed takes a technique of forming a trapezoidal cylinder or a cone.

In addition, the flow preventing groove is devised a technique to be exposed to the inner surface of the molding resin is formed by the injection secondary injection molding of the connection terminal.

According to the present invention, a plurality of connection terminals are connected to each other in a non-contact state through a gap maintaining connector formed by primary injection molding, thereby preventing the occurrence of an electric short during use, thereby providing an effect of improving electrical reliability.

In addition, the upper and lower portions of the gap maintaining connector is formed in the protrusions that are supported in close contact with the inner surface of the upper and lower molds, respectively, so that the connection terminal is accurately positioned in the center of the molding space during the second injection molding, and thus Provides the effect of improving quality.

In addition, the flow preventing groove formed in the in-situ holding protrusion is fitted with the flow preventing protrusion formed in the lower mold, thereby preventing the connection terminal from flowing or shifting the position even under the strong pressure caused by the injection of the molten resin during the second injection molding. It lowers the defective rate of and provides the effect of drastically improving the yield and profitability.

1 is a bottom perspective view of a connection terminal assembly to which the present invention is applied;
Figure 2 is a bottom view of the connection terminal assembly of the present invention
Figure 3 is a plan view of the connection terminal assembly of the present invention
4 is a cross-sectional view taken along the line AA of the present invention Figure 3
5 is a state in which the connection terminal assembly of the present invention is seated between the upper and lower molds
6 is a state in which the connection terminal assembly of the present invention is seated between the upper and lower molds
Figure 7 is a state in which the molten resin is injected into the molding space after the connection terminal assembly of the present invention is inserted into the molding space
8 is a state in which the connection terminal assembly of the present invention is inserted into the molding resin
Figure 9 is an enlarged cross-sectional view of the flow preventing projections of the present invention

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

Looking at the overall technical configuration according to the preferred embodiment of the present invention in accordance with the accompanying drawings, a plurality of connection terminals 110, a plurality of gap maintaining connectors 120, a plurality of alignment projections 130, 130a It can be seen that the connection terminal assembly 100 is divided into components.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

In the present invention, in manufacturing a cover, which is a kind of automobile parts, by injection molding, a plurality of connections in a step before performing secondary injection molding in which a plurality of connection terminals 110 are inserted into the molding resin 150 are inserted. By performing the first injection molding for connecting the terminal 110 integrally with each other, the connection terminal assembly 100, which is a first injection molded product as shown in Figs.

The reason for this is that when the connection terminals 110 are in contact with each other, an electrical short is generated during use to prevent them from being connected to the plurality of connection terminals 110 in a spaced apart state through primary injection molding. A plurality of spacing connector 120 is formed.

Accordingly, the plurality of connection terminals 110 constitute the connection terminal assemblies 100 spaced apart from each other in a non-contact state through the gap maintaining connector 120 to prevent electrical shorts in advance and to perform insert injection molding in earnest. In the process, they are not separated from each other but maintain their integrity.

A plurality of alignment protrusions 130 and 130a having the same height are protruded above and below the gap maintaining connector 120.

Here, the reason why the positioning protrusions 130 and 130a are formed at the same height is as shown in FIG. 6 in the inside of the molding space 220 formed between the pair of upper and lower molds 200 and 210. When the second terminal injection molding is performed by inserting the connection terminal assembly 100, the plurality of in-situ protrusions 130 and 130a are supported in close contact with inner surfaces of the upper and lower molds 200 and 210, respectively. This is to provide a special effect of improving the completeness and quality of the finished product (cover) while the connection terminal 110 is accurately positioned in the inner center of the molding space 220.

In addition, the present invention is a portion of the fixed position projections 130 formed on the lower side of the plurality of fixed position projections 130, 130a formed above and below the gap maintaining connector 120 flows as shown in Figs. Preventing groove 132 is further formed recessed, the flow preventing groove 132 has a plurality of protrusions formed on the inner surface of the lower mold 210 as shown in Figs. 5 to 7 when the insert secondary injection molding of the connection terminal 110 The flow preventing protrusion 211 is selectively fitted.

Accordingly, the connection terminal 110 is maintained in the molding space 220 by the flow preventing projection 211 in the state of being inserted into the molding space 220 by the molten resin during the secondary injection molding molding space ( Even when a strong pressure acts upon the injection into the 220, the connection terminal 110 and the connection terminal assembly 100 effectively prevent the flow or the position is distorted, thereby lowering the defective rate of the product to significantly improve yield and profitability. It can be provided.

Here, all other positioning protrusions 130 and 130a except for the positioning protrusion 130 in which the flow preventing groove 132 is formed are formed in the shape of a trapezoidal cylinder or a cone as shown in FIG. By reducing the resistance to the strong pressure generated when injecting the molten resin into the molding space 220 during the second injection molding of the insert terminal 110 by increasing the smooth flow of the molten resin of the molding resin 150 Increasing the filling property to suppress the incidence of the unmolding, as well as the area exposed to the inner and outer surfaces of the molding resin 150 to provide a beautiful appearance.

In addition, the flow preventing groove 132 is connected to the upper and lower molds (200, 210) to provide a beauty in the characteristics exposed to the outside of the molding resin 150, and at the same time to improve the quality of the connection terminal 110 It is more preferable that the insert is exposed to the inner surface 151 of the molding resin 150 formed by secondary injection molding.

100: connection terminal assembly 110: connection terminal
120: spacing connector 130, 130a: positioning protrusion
132: flow preventing groove 150: molding resin
200: upper mold 210: lower mold
211: flow preventing protrusion 220: molding space

Claims (5)

A plurality of gap maintaining connectors 120 formed through primary injection molding to integrally connect the plurality of connection terminals 110 to be spaced apart from each other;
Comprising a connection terminal assembly (100) consisting of a plurality of fixed position projections (130, 130a) protruding at the same height above and below the gap maintaining connector (120), respectively;
Some of the plurality of positioning protrusions 130, 130a formed on the bottom of the positioning protrusions 130 is formed in the bottom of the flow preventing groove 132 recessed, the flow preventing groove 132 in the connection terminal ( Insert injection molding 110 characterized in that the plurality of flow preventing projections 211 protruding on the inner surface of the lower mold 210 is selectively fitted to prevent the flow of the connection terminal 110 during the injection molding. Connection terminal.
delete The method of claim 1,
The positioning protrusions 130 and 130a are supported by the inserting mold of the connecting terminal 110 in close contact with the inner surface of the lower mold 200 and 210, respectively, and the connecting terminal 110 is molded. Insert injection molding connecting terminal, characterized in that located precisely in the center of the space (220).
The method of claim 1,
Except for the positioning protrusion 130 where the flow preventing groove 132 is formed, the other positioning protrusions 130 and 130a may be formed in the shape of a trapezoidal cylinder or a cone, and thus the second injection molding of the connection terminal 110 may be performed. , Insert injection molding connection terminal, characterized in that to increase the flow by reducing the resistance when injecting the molten resin into the molding space 220 formed between the lower mold (200) (210).
The method of claim 1,
The flow preventing groove 132 is exposed to the inner surface 151 of the molding resin 150 formed by the insert secondary injection molding of the connection terminal 110 to provide aesthetic appearance in the insert injection terminal, characterized in that .

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