KR101635688B1 - Milpin testing device of the mold - Google Patents

Abstract

The present invention relates to an ejector pin testing device of a mold, and more specifically, to an ejector pin testing device for accurately measuring an ejector pin with respect to a mold in developing the mold. The present invention emphasizes on providing an ejector pin testing device of a mold, which is capable of reducing damage to the ejector pin during a test by performing a stable test of the ejector pin in the mold, and selectively testing the completeness of the ejector pin even in various types of molds. The present invention relates to the ejector pin testing device of the mold, which is capable of maximizing the effect on the test by simplifying a structure and a configuration according to the test of the ejector pin of the mold, accurately measuring the ejector pin in developing the mold to prevent damage to the mold itself and minimize great damage due to the damage to the mold, and forming a plurality of rod grooves at various positions to locate the formed rod grooves in accordance with ejector pins to be tested of the mold.

Description

[0001] The present invention relates to a mold testing apparatus,

More particularly, the present invention relates to a device for inspecting a mold for accurate measurement of a mold when the mold is developed.

The mold assembly coagulates the molten resin and takes it out to mold the product. The mold assembly is installed and operated in a molding machine having a movable side relative to the fixed side and a fixed side. When the resin is solidified and the product is completed, the mold is opened and the product is pushed out by the spin pin and taken out of the mold to produce the product.

The mold assembly is formed by combining a plurality of parts such as a slide core and a spindle. The slide core serves to form an undercut portion of the product, and the milipin serves to take out the product after the product is solidified. The positions and shapes of the components vary depending on the configuration of the product.

Usually, when the design of the product is completed, the prototype is made. At this time, a test mold assembly corresponding to the configuration of the prototype is constructed to produce the prototype.

Test mold assemblies are no different from ordinary mold assemblies, but because they are not intended for mass production, the test mold assembly produces only one product.

However, the above-described conventional test mold assembly has the following problems.

Test mold assemblies made to produce prototypes should be configured to match the shape of the prototype.

Therefore, since the position of the slide core and the portion to be provided with the milipin must be changed for each prototype, it is necessary to newly manufacture the mold assembly or to process and replace the parts of the mold assembly properly at the time of making the prototype, There is a problem that the cost is increased.

In order for the slide core to be provided, parts such as an angular pin, a guide rail, and a locking block must be provided in the mold, and the parts of the mold assembly must be machined to install the respective parts to fit the product. There is a problem that the cost for manufacturing the mold assembly increases.

Conventionally, a 'test mold assembly' of Laid-Open No. 10-2009-0073797 and an injection mold having improved elevation structure of the micrphin of Registration No. 20-0417872 have been disclosed. However, to be.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art described above, and it is an object of the present invention to provide a mold test apparatus capable of reducing the damage caused by damage to the mold during testing, It was completed as a technical task with a focus on providing a mold inspection tool for inspection.

According to an aspect of the present invention, there is provided a method of manufacturing a metal mold, including: a top plate 100 having a plurality of rod rod grooves 110 through which a metal mold is placed, A hydraulic rod 310 formed on the upper plate support 200 and lifting and lowering the spindle 400 into the rod rod groove 110 and a hydraulic rod fixing rail 300 for supporting the hydraulic rod 310, (300), a hydraulic circuit (330) for transferring the hydraulic pressure to the hydraulic rod (310), and a hydraulic pressure distributor (340) for distributing the hydraulic pressure to the hydraulic circuit (330) To solve these problems.

According to the apparatus of the present invention, it is possible to simplify the structure and structure of the mold by the inspection of the mold while maximizing the effect of the inspection, and to accurately measure the mold spindle during mold development, It is possible to minimize the damage and to form the rod rod grooves at various positions and to position the rod rod grooves according to the mold of the mold to be inspected.

1 is a perspective view showing an inspection apparatus according to the present invention;
2 is a rear perspective view showing a testing apparatus according to the present invention;
Fig. 3 is a view showing the inspection apparatus according to the present invention.
4 is a plan view showing the inspection apparatus of the present invention
5 is a side view showing the inspection apparatus of the present invention
Fig. 6 is a side perspective view showing the hydraulic circuit of the present invention. Fig.

Accordingly, the present invention provides a mold-

The inspection apparatus 10 according to the present invention includes an upper plate 100 on which a plurality of rod rod grooves 110 are formed so as to receive a metal mold and pass through the upper and lower sides of the upper and lower plate supports 100 and 200, A hydraulic rod 310 formed on the upper plate support 200 and lifting and lowering the spin pin 400 into the rod rod groove 110 and a hydraulic rod fixing rail 320 supporting the hydraulic rod 310, A hydraulic circuit 330 for transferring the hydraulic pressure to the hydraulic rod 310, and a hydraulic pressure distributor 340 for distributing the hydraulic pressure to the hydraulic circuit 330.

One or more of them may be formed depending on the number of the hydraulic rod 310, the hydraulic circuit 330, and the hydraulic distributor 340.

The upper plate 100 is formed with a clamping groove 120 for fixing a metal mold.

Referring to FIG. 1 to FIG. 6, the apparatus for testing a mold of the present invention will be described in more detail.

In the inspection apparatus 10 of the present invention, the upper plate 100 and the upper plate support 200 are made up of a large part.

The upper plate 100 is formed in the shape of a plate having a certain width and thickness so that the metal to be inspected is positioned.

A plurality of rod rod grooves 110 are formed in the upper plate to pass through the upper and lower sides.

A plurality of rod rod grooves 110 are formed on the upper plate 100.

The plurality of rod rod grooves 110 and the position of the rod rod grooves 110 may vary depending on the size of the mold and the position of the mille pin to be positioned. It is not limited to location.

The upper plate support 200 is formed at a lower portion of the upper plate 100 and includes a plurality of support legs, which are supports for supporting the upper plate 100.

The upper plate support 200 supporting the upper plate 100 includes a hydraulic rod 310, a hydraulic rod fixing rail 320, a hydraulic circuit 330, and a hydraulic pressure distributor 340.

The hydraulic rod 310 is formed on the upper plate support 200 so as to lift and lower the spin pin 400 into the rod rod groove 110. This causes the hydraulic motor 400 to move up and down due to the hydraulic pressure introduced through the hydraulic pressure distributor 340.

The hydraulic rod fixing rail 320 is formed at a lower portion of the upper plate support 200 so that the hydraulic rod 310 supports the hydraulic rod 310 to prevent the hydraulic rod 310 from flowing when the hydraulic pin 310 is lifted and lowered will be.

The hydraulic circuit 330 transfers the hydraulic pressure distributed by the hydraulic pressure distributor 340 to the respective hydraulic rods 310. This connects the hydraulic rods 340 and the hydraulic rods 310 as shown in FIG. The circuit is formed with the hydraulic circuit 330 so as to match each of the transfer paths.

The hydraulic pressure distributor 340 draws the hydraulic pressure into the hydraulic circuit 330 and distributes the hydraulic pressure to the hydraulic pressure distributor 340 by using the separately provided hydraulic device.

The number of the hydraulic rods 310, the hydraulic circuit 330, and the hydraulic distributor 340 may be varied depending on the number of the millefins 400 to be lifted or lowered.

The upper plate 100 is provided with a clamping groove 120 for fixing a mold. The clamping groove 120 fixes the mold of the upper plate 100 to prevent the mold 100 from flowing when inspecting the mold 400, The fixing member is inserted into the clamping groove 120 by using a separate fixing member, and then the fixing member and the mold are interconnected and connected.

According to the present invention, it is possible to simplify the structure and structure of the mold by the inspection of the mold and maximize the effect of the inspection, and precisely measure the mold 300 when the mold is developed, thereby preventing damage to the mold itself And the rod rod grooves 110 can be formed at various positions to be positioned in correspondence with the mold pin 400 of the mold to be inspected.

10: Inspection device
100: upper plate 110: rod rod groove 120: clamping groove
200: Top plate support
310: Hydraulic rod 320: Hydraulic rod fixing rail 330: Hydraulic circuit
340: Hydraulic distributor
400: milipin

Claims (2)

An upper plate 100 on which a plurality of rod rod grooves 110 passing through the upper and lower sides are formed, and clamping grooves 120 for fixing the mold are formed;
An upper plate support 200 formed at a lower portion of the upper plate 100;
A hydraulic rod 310 formed on the upper plate support 200 and lifting and lowering the spin pin 400 into the rod rod groove 110 and a hydraulic rod fixing rail 320 supporting the hydraulic rod 310, , A hydraulic circuit (330) for transferring the hydraulic pressure to the hydraulic rod (310), and a hydraulic pressure distributor (340) for distributing the hydraulic pressure to the hydraulic circuit (330).
The method according to claim 1,
Wherein at least one of a plurality of the hydraulic rods (310), the hydraulic circuit (330), and the hydraulic pressure distributor (340) is provided.

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