KR200317981Y1 - Mold of modeling department pressure measurement structure - Google Patents

Abstract

The present invention relates to the pressure measurement structure of the molding part of the injection mold that makes it easy to determine whether the product is defective by determining the density of the product to be molded by measuring the pressure of the molten resin put into the molding part of the injection mold. A pair of upper and lower eject pin mounting plates, which are separated into the stationary mold (B) and the movable mold (S), have a forming groove (P) formed on the contact surface between the stationary mold and the movable mold, and are installed inside the stationary mold (B). In a conventional injection mold in which a plurality of eject pins (2) 201 are provided by overlapping (1) and (101):

The load cell (3) is formed inside the ejection pin mounting plate (1) 101 on which the eject pin mounting plate (202) on which the eject pin (202) is installed to push out the molded product is formed. And a load button 301 is brought into contact with the lower surface of the eject pin 202 so that the pressure acting on the forming groove P is transmitted to the eject pin 202 and is again transmitted to the load cell 3 to produce an injection mold. It is possible to measure the pressure generated in the molding part to measure the pressure of the resin generated inside the molding part (P) of the injection mold, and to measure the molding density of the product to determine the strength of the product. It is possible to omit the product inspection that is performed later on the product, which has the advantages of excellent productivity and convenient operation.

Description

Mold of modeling department pressure measurement structure

The present invention relates to a pressure measuring structure of a molding part of an injection mold capable of measuring the pressure of the molten resin injected into a molding part of an injection mold, and more specifically, by measuring the pressure of the molten resin injected into a molding part of an injection mold. By grasping the density of the product to be molded, it is easy to determine whether the product is defective.

In general, the plastic injection molding method of melting a resin and injecting it into a mold to solidify the resin to mold a plastic product is widely used throughout the industry due to convenience of work and convenience of mass production.

However, plastic injection molded products can be easily selected for defective products that are visually identifiable in appearance, but in the case of products requiring function and strength, it is difficult to identify defects.

That is, the plastic injection product is determined according to the density of the resin constituting the product, the product is molded in the mold is completed, it is difficult to determine whether the product defects.

Conventionally, in order to identify defects such as strength, not the appearance of the product, a method of determining whether the product is defective by measuring the weight of each produced product and measuring the supply pressure of the molten resin supply part of the injection molding machine There is one that can determine whether or not.

In other words, in order to maintain the strength of the product, the resin constituting the molded product must be above a certain density, and a product with a high density naturally has a heavy weight. will be.

However, judging whether the product is defective by measuring the weight of the finished product as described above has to be a defect in that it takes a lot of time and effort because the individual weight of each produced product must be measured.

The measurement of the density and strength of the product by measuring the supply pressure of the molten resin supply part of the injection molding machine depends on the shape and size of the product, the shape and size of the molding groove of the mold and the distance between the pressure measuring part and the molding groove. It was difficult to determine the strength of the product because it shows a large difference from the pressure in the molding groove to be molded.

The present invention improves the conventional drawbacks as described above by measuring the pressure of the molten resin generated in the molding groove of the mold to calculate the density of the molding pressure of the product to be molded by measuring the strength of the product The purpose of the present invention is to propose a pressure measuring structure in a molding groove of an injection mold that can determine whether a defect is present.

1 is a cross-sectional view showing an injection mold installed with a measuring device of the present invention

2 and 3 is an exemplary view that can be taken out to separate the product by using the present invention.

*** Explanation of symbols on main parts of drawings ***

B: fixed mold S: movable mold

P: Molding groove 1,101: Upper and lower eject pin fixing plate

2,201,202: eject pin 3: load cell

301: load button 4: display device

5: cylinder 501: shout

First, Figure 1 is a cross-sectional view of the injection mold to be able to measure the pressure inside the molding groove of the injection mold of the present invention and Figures 2 and 3 is shown an embodiment to select the product using the present invention.

In other words, one side of the present invention is separated into a stationary mold (B) and a movable mold (S), forming grooves (P) is formed on the contact surface of the stationary mold and the movable mold, and a pair of images installed inside the stationary mold (B) In the conventional injection mold in which a plurality of eject pins (2) 201 are installed by overlapping the high eject pin mounting plate (1) (101):

The load cell (3) is formed inside the ejection pin mounting plate (1) 101 on which the eject pin mounting plate (202) on which the eject pin (202) is installed to push out the molded product is formed. And the load button 301 is in contact with the lower surface of the eject pin 202.

In addition, the load button 301 of the load cell may be formed long so that the end of the load button 301 is introduced into the molding groove P.

The present invention as described above is that when the molten resin is pressurized into the molding groove (P) to fill the molding groove (P), the resin pressure inside the molding groove (P) is generated as the outer wall of the molding groove when the load cell The pressing force of the resin is applied to the surface of the eject pin 202 coupled to the end of the load button 301 and the pressing force transmitted to the eject pin 202 is transferred to the load cell 3 again to inject the mold. It will be able to measure the pressure generated in the molding portion of.

In addition, the numerical value measured by the load cell 3 is connected to the display device 4 to visually check the pressure in the mold and transmit an electric signal to the cylinder 5 or the like equipped with the chute 501 to transmit the cylinder 5. By controlling the control, it is possible to separate the product within the allowable range of the pressure required by the product and the low density product having low strength.

The present invention as described above makes it easy to control the pressure of the injection machine 6 by measuring the pressure of the resin generated inside the molding portion (P) of the injection mold and the strength of the product by measuring the molding density of the product It can be used to determine the strength of products that cannot be identified with the naked eye, so that it is possible to omit the product inspection that is performed later on the molded products, which is advantageous in terms of productivity and convenient operation.

Claims (1)

A pair of upper and lower eject pin mounting plates, which are separated into the stationary mold (B) and the movable mold (S), have a forming groove (P) formed on the contact surface between the stationary mold and the movable mold, and are installed inside the stationary mold (B). In a conventional injection mold, in which a plurality of eject pins (2) 201 and 202 are provided by overlapping (1) and (101): Any of the eject pins (2), 201, 202 installed on the eject pin mounting plate (1) 101, on which the eject pins (2), 201, 202, which push the molded product, and take out the product are installed. A device groove 101a is formed at an installation lower end of one eject pin to install a load cell 3 therein, and the load button 301 contacts the lower surface of the eject pin 202 so that the load button 301 is provided. Pressure measurement structure of the molding part of the injection mold, characterized in that the compression amount of the