KR20050060810A - Fabricating method of injection molding product with porosity pin hole - Google Patents

Abstract

The present invention relates to a method for manufacturing a mold injection molded product having a porous pinhole, such as an IC chip test socket. The method for manufacturing a mold injection molded product having a porous pinhole according to the present invention includes (a) injection of molten resin into the injection machine through a sprue. Becoming solidified; (b) a step of cutting the runner and the gate while the injection mold is operated to separate the template 3 from the template 2; (c) If template 3 can no longer be opened by the stop ring fastened to the other end of the first puller bolt fixed to the template 2, template 2 is separated from template 1, template 1 Separating the runner coupled with the; (d) separating the template 4 from the template 3 at the same time as the above; (e) When the number 4 template can no longer be opened by the second fuller bolt connecting the template 3 and the template 4, the template 5 is separated from the template 4, and the pin is coupled with the template 5 The block is separated from the injection molding; (f) the step 4 and the template plate 7 is connected to the return pin at the same time and move together; (g) operating the template No. 7 as a separate extraction unit, characterized in that it comprises the step of ejecting the ejection by using a mill pin coupled with the template No. 7.

Description

Fabricating method of injection molding product with porosity pin hole}

The present invention relates to a method for manufacturing a mold injection molded product having a porous pinhole, such as an IC chip test socket, and more particularly, by separating the pin block from the product before taking out the product by the mill pin, damage to the mold pin when taking out the product The present invention relates to a method for manufacturing a mold injection product having a porous pinhole to minimize product deformation and minimize product deformation.

1 is an exploded perspective view illustrating the structure of a general mold apparatus, and shows a general three-stage separate mold structure. Typical mold apparatus as shown in the figure is the first mold 10, the second mold 20, the third mold 30, the fourth mold 40, the fifth mold 50 and the organic connection between them The support pin 31, the guide pin 51, etc. are made.

First, the fifth template 50 serves to prevent the fourth template 40 from bending by the injection pressure, which is also a structure that can be omitted.

In addition, the support pin 31 is fixed to the first template 10 so that the second template 20 and the third template 30 move smoothly.

In addition, the guide pin 51 is attached to the number 4 template 40, and serves to guide the coupling with the number 3 template 30 when the mold is closed.

Figure 2 is a partially enlarged perspective view showing a return pin structure in the prior art, and when the mold is opened, as shown in the figure, the ejection unit of the injection machine is operated to push the template 70, the template 7 The push pins (not shown) fixed to the 70 is pushed together to be able to take out the injection.

Thereafter, the seventh template 70 is retracted by the force of the compressed spring 73 inserted between the seventh template 70 and the fifth template 50, and only the force of the spring 73 retreats completely. If you can't.

In this case, when the mold is closed as it is, a problem occurs in which the pin (not shown) that is not fully retracted collides with the third mold 30 and is damaged. In this case, the return pin 71 fixed to the seventh mold 70 is damaged. In addition to supporting the movement of the 4 and 40 template plate 50, when the mold is closed, the contact with the template 30 and the 3 before the mil pin to retract safely so as not to retreat It will play a role.

However, in the conventional mold apparatus structure as described above, when the number 4 (5) and the number 5 () are opened, the mill pin fixed to the number 7 template (70) is relatively retracted by the force of the spring (73). Then, when the separate ejection unit of the injection machine is pushed to push the template 70, there is a problem that the support role of the return pin 71 becomes unstable and damages the mill pin hole.

In addition, in order to obtain a mold injection product such as an IC chip test socket having a porous pinhole as shown in FIG. 3, a pin block made of a combination of precise mold pins is used due to the characteristics of the product. Due to the shrinkage phenomenon that occurs, the compression between the injection molding and the mold pin is made, it is difficult to take out only by the mill pin, and if taken out by force, the mold pin may be damaged or the product may be deformed due to unbalance of extraction.

Therefore, a method of manufacturing a mold injection molding having a porous pinhole to solve this problem must be urgently proposed.

The present invention has been proposed to solve the above problems, an object of the present invention in the socket chip for IC chip test, by separating the pin block from the product before taking out the product by the mill pin, when the product is taken out of the mold pin It is to provide a socket mold structure for IC chip test that minimizes damage and minimizes product deformation.

Method for producing a mold injection molding having a porous pinhole according to the present invention for achieving the above object is (a) a step of injecting molten resin into the injection machine through the sprue and solidified; (b) a step of cutting the runner and the gate while the injection mold is operated to separate the template 3 from the template 2; (c) If template 3 can no longer be opened by the stop ring fastened to the other end of the first puller bolt fixed to the template 2, template 2 is separated from template 1, template 1 Separating the runner coupled with the; (d) separating the template 4 from the template 3 at the same time as the above; (e) When the number 4 template can no longer be opened by the second fuller bolt connecting the template 3 and the template 4, the template 5 is separated from the template 4, and the pin is coupled with the template 5 The block is separated from the injection molding; (f) the step 4 and the template plate 7 is connected to the return pin at the same time and move together; (g) operating the template No. 7 as a separate extraction unit, characterized in that it comprises the step of ejecting the ejection by using a mill pin coupled with the template No. 7.

Here, in step (b), the runner is fixed to the lock pin of the first template.

Here, the stop ring is fastened to both ends of the second fuller bolt of the step (e) is characterized in that the third and fourth template is no longer open.

Here, the template 4 is supported by the guide pin fixed to the template 5 in the step (e).

Here, in step (f), the stop pin is fastened to the end of the return pin on the side of the template 4 so that the template 4 and the template 7 do not open more than a predetermined interval so that the mill pin combined with the template 7 is the template 4 It is characterized in that to keep the state loaded in the core block formed in the to prevent the resin flowing into the mill pin hole.

Here, the buffer coil is loaded on the return pin between the template 7 and the template 4 to maintain a proper distance between the template 4 and template 5.

Mold apparatus for manufacturing a mold injection molding having a porous pinhole according to the present invention for achieving the above object is in the production of a mold injection molding having a porous pinhole, such as a socket for IC chip test, the mold injection is final from the mold mold After the pin block is separated before being taken out, it is characterized in that the extraction operation of the injection by the mill pin is made.

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

Figure 4 is a perspective view showing the working structure of the mold apparatus for producing a mold injection molding having a porous pinhole according to the present invention.

As shown in the figure, when explaining the manufacturing method of the mold injection molding having a porous pinhole according to the present invention, the molten resin is first injected into the injection machine through the sprue 111.

Then, when the molten resin is solidified after a certain time has elapsed, the third mold 130 is separated from the second mold 120 by the separate injection molding machine, and the runner 122 and the gate 133 are separated. ) To be cut. At this time, the runner 122 is supported by a lock pin (not shown) coupled with the first template 110.

Then, when the third template 130 can no longer be opened by the stop ring 121a fastened to the other end of the first puller bolt 121 fixed to the second template 120, the second While the template 120 is separated from the first template 110, the runner 122 coupled to the first template 110 is separated. At the same time, the fourth template 140 is separated from the third template 130.

Then, when the fourth template 140 can no longer be opened by the second fuller bolt 131 connecting the third template 130 and the fourth template 140, the template 150 is formed. 4 is separated from the template 140. At this time, the guide pin 151 is fixed to the template 5, and the template 140 is supported by the guide pin 151.

In addition, as the stop ring 131a is fastened to both ends of the second puller bolt 131, the third template 130 and the fourth template 140 are no longer opened.

5 is a partially enlarged perspective view illustrating a state in which a porous pinhole is formed by using a pin block in a mold injection molding according to the present invention. As shown in the figure, the pin block 153 is coupled to the template 150. As a result, when the fifth template 150 is separated from the fourth template 140, the pin block 153 is naturally separated from the injection molding 190. At this time, since the pin block 153 is stably separated while the entire bottom of the injection molding 190 is supported by the core block 141, each of the precise mold pins forming the pin block 153 is in the pinhole of the injection molding. Breaking or tampering with is prevented.

FIG. 6 is a partially enlarged perspective view illustrating an interlocking relationship between a template 4 and a template 7 by the return pin structure according to the present invention. As shown in the figure, the template 4 and the template template 170 are shown in FIG. The return pin 171 is connected and moved together, at this time, by fastening the stop ring 171a to the end of the return pin 171 on the side of the fourth template 140, the fourth template 140 and the seventh template ( 170) does not occur over a certain interval.

Accordingly, the resin is inserted into the mill pin hole (not shown) so that the mill pin (not shown) coupled with the template No. 7 is maintained in the core block 141 formed on the template No. 4 140. To prevent ingress.

In addition, the buffer coil 173 is inserted into the return pin 171 between the template 7 and the template 140, so that between the template 140 and the template 150, Ensure proper distance is maintained.

Figure 7 is a perspective view showing a structure in which the injection molded product according to the present invention is taken out by the pin.

Next, as shown in FIG. 7, the template No. 7 is operated as a separate take-out unit so that the injection molded product 190 is taken out by using the mill pin 175 coupled with the template No. 7. .

In the present invention as described above, after the pin block 153 is pre-separated before the final injection of the mold injection molding 190, the extraction operation of the injection molding 190 is performed by the mill pin 175, thereby, when taking out the product, Since it is possible to prevent the damage of the mold pin and at the same time to prevent deformation of the injection molding 190, it is very useful for the production of a mold injection molding having a porous pinhole such as an IC chip test socket.

According to the present invention, in a mold injection product having a porous pinhole, such as an IC chip test socket, the pin block is separated from the product before the product is taken out by the mill pin, thereby preventing damage to the mold pin during product extraction, and at the same time product deformation. It is effective to prevent.

In addition, product defects are reduced, productivity is improved, and the replacement time of the mold pins can be delayed, thereby maintaining maintenance costs.

1 is an exploded perspective view illustrating a structure of a general mold apparatus.

Figure 2 is a partially enlarged perspective view showing a return pin structure in the prior art.

Figure 3 is a perspective view showing a socket for IC chip test formed with a porous pinhole.

Figure 4 is a perspective view showing the working structure of the mold apparatus for producing a mold injection molding having a porous pinhole according to the present invention.

5 is a partially enlarged perspective view illustrating a state in which a porous pinhole is formed using a pin block in an injection molding product according to the present invention;

6 is a partially enlarged perspective view illustrating an interlocking relationship between a template 4 and a template 7 by the return pin structure according to the present invention;

Figure 7 is a perspective view showing a structure in which the injection molded product according to the present invention is taken out by the pin.

* Description of the symbols for the main parts of the drawings *

110: Template 1 111: Sprue

120: template 2 121: first fuller bolt

122: runner 130: template 3

131: second fuller bolt 140: template 4

141: core block 150: template 5

151: guide pin 153: pin block

170: template 7 173: buffer coil

190: Injection

Claims (7)

(A) solidifying the molten resin is injected into the injection machine through the sprue; (b) a step of cutting the runner and the gate while the injection mold is operated to separate the template 3 from the template 2; (c) If template 3 can no longer be opened by the stop ring fastened to the other end of the first puller bolt fixed to the template 2, template 2 is separated from template 1, template 1 Separating the runner coupled with the; (d) separating the template 4 from the template 3 at the same time as the above; (e) When the number 4 template can no longer be opened by the second fuller bolt connecting the template 3 and the template 4, the template 5 is separated from the template 4, and the pin is coupled with the template 5 The block is separated from the injection molding; (f) the step 4 and the template plate 7 is connected to the return pin at the same time and move together; (g) operating the template No. 7 as a separate extraction unit to take out the extrudate using a mill pin coupled to the template No. 7; Method of producing a mold injection molding having a porous pinhole, characterized in that it comprises a. The method of claim 1, The runner in the step (b) is a method of manufacturing a mold injection molding having a porous pinhole, characterized in that fixed to the lock pin of the first template. The method of claim 1, The stop ring is fastened to both ends of the second fuller bolt of the step (e) to prevent the mold 3 and the mold 4 is no longer open mold injection molding method having a porous pin hole. The method of claim 1, Method (e) of the mold injection molding method having a porous pinhole, characterized in that the fourth template is supported by the guide pin fixed to the template number five. The method of claim 1, In the step (f), the stop pin is fastened to the end of the return pin on the side of the template 4 so that the template 4 and the template 7 do not open more than a predetermined interval so that the mill pin coupled to the template 7 is formed on the template 4. Method of manufacturing a mold injection molded product having a porous pinhole, characterized in that to keep the state loaded in the core block to prevent the resin flowing into the mill pin hole. The method of claim 5, The buffer coil is loaded on the return pin between the template 7 and the template 4 to maintain a proper distance between the template 4 and the template mold with a porous pin hole, characterized in that. In the production of a mold injection molding having a porous pinhole such as an IC chip test socket, After the pin block is pre-separated before the mold injection is finally taken out from the mold frame, the mold apparatus for manufacturing a mold injection molding having a porous pinhole characterized in that the extraction operation of the injection by the mill pin is made.