KR20150020360A - Slide Core For Under Cut Treating Apparatus - Google Patents

Abstract

The present invention relates to a slide core for an under cut extraction apparatus of an injection mold. The slide core comprises: the under cut extraction device including an eject pin, which is installed on an inner circumferential side of a lower disk to slide and ejects an injection-molded product, a pushing plate which moves the eject pin up and down, and a guide shaft, which is arranged on both sides of the pushing plate to support operation of the pushing plate; a driving shaft which reciprocates when the pushing plate is moved up and down; a core main body part which is joined on the top of the driving shaft and extracts the undercut part of the injection-molded product; a core holder that is formed in the shape of a circle or a polygon having an open end portion; and a driving force providing means which is joined with a lower end portion of the driving shaft and provides predetermined elastic force in order to operate the driving shaft.

Description

Technical Field [0001] The present invention relates to a slide core for an undercut extraction device,

The present invention relates to a slide core for an apparatus for taking out an undercut of an injection mold. More specifically, the sliding core for taking out the product allows the product to be taken out by the rolling operation of the ball, and at the same time, the centers of the plurality of balls formed on the sliding core are configured at mutually different positions, To a slide core for an undercut removing device of an injection mold which is easy to take out a product of a small size.

Generally, an undercut is a concave portion in which it is difficult to discharge an injection object only by mold closing of the molding machine or by movement in the mold opening direction.

This undercut can be divided into the case of being on the outside of the molded product and the case of being on the inside. It is not easy to take out the product by the undercut portion and also to prevent the product from coming into contact with or collision with the mold at the take- In some cases, the product was defective.

1 shows an injection mold having an inner slide core according to the prior art.

As shown in FIG. 1, the injection mold according to the prior art is a Korean patent (Registration No. 10-0835615), which comprises a cavity plate 1 in which a cavity block 11 is formed, a core plate 2 in which a core block 21 is formed An inclined core 3 for allowing the ejection shaft 31 to be inserted diagonally into the center of the inner side of the core plate 2 so as to be guided by the guide piece 4 and the pair of guide pieces 5, An inclined support member 6 having a support block 61 and a fixing bolt 62 is further provided on one side of an upper surface of an inclined core 3 into which the eject shaft 31 is inserted in a diagonal structure And the inclined support member 6 is mounted on one side of the upper surface of the core plate 2 on the right side of the eject shaft 31 as a detachment attachment structure.

However, as the inclination of the undercut increases, the injection mold according to the related art has a problem in that it is difficult to separate the inclined core 3 for molding the undercut portion from the product when the product is taken out from the injection mold, and to securely take the product out of the mold.

In addition, since the injection mold according to the related art has a complicated internal structure, it takes a lot of time and cost to manufacture an injection mold apparatus, and it is not only difficult to miniaturize due to a large number of parts, The process is complicated.

Korean Patent No. 10-0835615 (May 30, 2008)

In order to solve such problems, the present invention can reduce the manufacturing cost by miniaturizing the sliding core of the take-out device for injection molding an article having an undercut, and it is possible to take out the product by one- The contact area between the core holder and the core main body is minimized so that the molded product with the undercut can be precisely taken out, the production process can be simplified, and the productivity of the product can be maximized.

In addition, according to the present invention, the sliding core for taking out the product is configured to allow the product to be taken out by the rolling operation of the ball, and at the same time, the centers of the plurality of balls formed on the sliding core are configured at mutually different positions, It is easy to take out products of a small size according to operation.

According to an aspect of the present invention, there is provided a slide core for an undercut removing apparatus, comprising: an eject pin provided to slidably move on an inner circumference of a lower plate to eject an ejection member; An undercut taking-out device which is formed on both sides and includes a guide shaft for supporting the operation of the plate; And a drive shaft for reciprocating motion of the flat plate in a vertical direction; A core body coupled to an upper end of the drive shaft and configured to take out an undercut portion of the injection product by a sliding operation; A core holder formed in a circular or polygonal shape with an opening at one end thereof and formed with a support portion into which the core body portion is inserted and provided with support balls which are provided on both sides of the support portion and support a sliding operation of the core body portion; And a power supply unit coupled to a lower end of the drive shaft to provide a predetermined elastic force to operate the drive shaft.

In addition, in the present invention, on both side surfaces of the core body, a plurality of ball contact grooves that contact the support ball so as to be slidable in a vertical or diagonal direction, And a guide groove is formed in the guide groove.

Further, in the present invention, there is provided a slide core for an undercut taking-out device, wherein at least two or more elastic bodies made of a C-spring are provided on the outer circumferential surface of the core holder so as to provide a predetermined elastic force to the core body side .

In the present invention, it is preferable that the support ball is rotatably provided in the support portion of the core holder, and the plurality of support balls are arranged in the center of the support ball formed on one side of the core holder and the center of the support ball Wherein the first and second slits are configured to have different centers.

Further, in the present invention, there is provided a slide core for an undercut extraction device characterized in that the distance between the support portion of the core holder and the contact point of the support ball contacting the core body portion forms a gap of 0.3 mm to 0.4 mm .

According to the present invention, since the product can be taken out by rotation of the support ball when the product is taken out from the injection mold The contact area between the core holder and the core main body is minimized, so that the molded product with the undercut can be taken out precisely, and the molded product with the undercut can be safely taken out of the mold.

Further, according to the present invention, it is possible to miniaturize the device structure for ejecting and extracting an article having an undercut, thereby reducing the manufacturing cost, simplifying the production process, and improving the productivity.

In addition, according to the present invention, the sliding core for taking out the product can take out the product by rolling the balls, and at the same time, the centers of the plurality of balls formed on the sliding core are configured at mutually different positions, As the device is operated precisely, it is easy to take out products of a small size.

1 shows an injection mold having an inner slide core according to the prior art,
2 is a schematic view of an injection mold in which a slide core for an undercut extraction device according to a preferred embodiment of the present invention is formed,
3 is an exploded perspective view showing a slide core for an undercut extraction device according to a preferred embodiment of the present invention,
4 is a cross-sectional view of a slide core for an undercut extraction device according to a preferred embodiment of the present invention,
5A and 5B are views showing a core holder of a slide core for an undercut extraction device according to a preferred embodiment of the present invention,
6 is another embodiment showing a slide core for an undercut take-out apparatus according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a schematic view of an injection mold having a slide core for an undercut extraction device according to a preferred embodiment of the present invention, FIG. 3 is an exploded perspective view showing a slide core for an undercut extraction device according to a preferred embodiment of the present invention, and FIG. 4 is a cross-sectional view showing a slide core for an undercut removing device according to a preferred embodiment of the present invention, FIGS. 5A and 5B are views showing a core holder of a slide core for an undercut removing device according to a preferred embodiment of the present invention, FIG. 7 is another embodiment showing a slide core for an undercut extraction device according to a preferred embodiment of the present invention. FIG.

As shown in the drawing, the undercut taking-out apparatus 200 of the present invention is configured between the lower plate 110 and the lower plate 120 and the fixing plate 130 so as to enable safe and easy take- An ejection pin 210 for ejecting the ejected material by the lowering operation, a plate 220 on which the ejection pins 210 are fixedly mounted, a guide member 220 disposed on both sides of the plate 220 for supporting the operation of the plate 220 230 and the ejection pin 210 to perform an upward sliding operation to take out an injection-molded object having undercuts.

The lower plate 110 is provided with a pin guide hole 112 so that the eject pin 210 of the undercut take-out device 200 is inserted and the up and down operation is performed according to the operation of the plate 220, And a core mounting hole 114 in which a core holder 310 of a slide core 300 to be described later is installed is formed so as to take out an article to one side of the pin guide hole 112.

The lower end of the lower plate 110 supports the lower end of the slide core 300 and supports the eject pin 210 of the undercut extraction device 200, the guide member 230, 310 are fastened to the lower plate 110 and the support plate 120 so that the core holder 310 of the slide core 300 can be fastened to the lower plate 110 and the support plate 120, Is formed.

The undercut taking-out apparatus 200 includes an eject pin 210, a plate 220, and a guide member 230.

The lower end of the eject pin 210 is fixed to the plate 220 and the sliding operation is performed along the inner periphery of the pin guide hole 112 of the lower plate 110 by the lifting and lowering operation of the plate 220, .

The plate 220 is configured to move up and down the ejection pin 210 and is positioned on the same center line as the pin guide hole 112 of the lower plate 110. The lower end of the ejection pin 210 And a second plate 224 coupled to the lower side of the first plate 222 to support the lifting and lowering operation of the ejection pin 210. [

The slide plate 300 has a through hole 228 through which the guide member 230 is inserted so as to penetrate the slide plate 300. The drive shaft 310 of the slide core 300 passes through the slide plate 300, And the operation hole 226 is formed so as to be movable in the left or right direction by a predetermined angle.

The guide shaft 230 is a component installed in the shaft through-hole 228 of the plate 220 and guiding the slide direction of the plate 220 to maintain the straightness of the plate 220.

The upper and lower ends of the guide shaft 230 are respectively fixedly coupled to the lower plate 110 and the fixed plate 120 to support the up and down movement of the plate 220.

Meanwhile, the slide core 300 of the present invention is a component in which the lifting and lowering operation is performed together with the eject pin 210 so that the undercut portion of the injection product is taken out when the lifting and lowering operation of the ejection pin 210 is performed.

The slide core 300 includes a drive shaft 310 that reciprocates in accordance with the lifting and lowering operation of the plate 220, a core 310 coupled to the upper end of the drive shaft 310, A core holder 330 having a main body 320 and a support ball 350 for supporting a sliding operation of the core body 320; And a power providing means (340) for providing a predetermined elastic force so that the operation of the drive shaft (310) is performed.

The driving shaft 310 passes through the operation hole 226 formed in the plate 220 and is coupled to the upper end of the core body 320 to support the operation of the core body 320, A control unit 312 configured to rotate the motor 320 by a predetermined angle and a coupling unit 314 coupled to the power providing unit 340 at a lower end thereof.

A stopper 316 is provided on the lower outer periphery of the drive shaft 310 to support the lower end of the plate 220 and to compress or expand the power providing means 340 depending on whether the plate 220 is operated or not.

The stopper 316 is moved downward by the second plate 224 during the lowering operation of the plate 220 so that the drive shaft 310 is also moved downward by the stopper 316, The power providing means 340 formed at the lower end is compressed and the power providing means 340 in the compressed state is expanded by the elastic restoring force and the upward movement of the drive shaft 310 So that the operation is performed.

The core body 320 has a spherical angle adjusting groove 322 formed at its lower end so as to be rotatably engaged with the adjusting portion 312 formed in the core shaft 310, The sliding operation is performed, and at the same time, sliding is performed by inclining by the small angle, and the take-out with the undercut is taken out.

A plurality of balls 370 are formed on both side surfaces of the core body 320 so as to be slidable vertically or obliquely by the support balls 350 provided on the core holder 330, Grooves 324 are formed.

A plurality of ball contact grooves 324 are connected to the core body 320 of the present invention so as to be in contact with the outer circumferential surface of the support ball 350 that rotates during the sliding operation and to guide the sliding direction of the core body 320 A guide groove 326 is formed.

The core holder 330 is installed in the core mounting hole 114 and is formed in a circular or polygonal shape with one end opened to support the core body portion 320 to support the sliding operation of the core body portion 320 And a support ball 350 is provided on both sides of the support portion 332 to support the sliding operation of the core body portion 320. [

The core holder 330 is formed with a coupling groove 334 communicating with the coupling hole 122 of the support plate 120 so as to be fixedly coupled to the lower plate 110 and the support plate 120, Lt; / RTI >

The outer circumferential surface of the core holder 330 supports the sliding operation of the core body 320 and the outer surface of the core body 320 and the supporting portion 332 of the core holder 330 contact each other during the sliding operation, At least two elastic bodies 360 are provided to provide a predetermined elastic force to the core body 320 so as to minimize malfunction of the body 320.

At this time, it is preferable that the elastic body 360 uses a C-type spring so as to surround the outer circumferential surface of the core holder 330 having one side opened, but the present invention is not limited thereto.

Rotating grooves 336 are formed on both sides of the support portion 334 so that the support ball 350 can be rotatably supported to support the rotation of the ball to rotate along both side surfaces of the core body portion 320 .

Here, the rotation grooves 336 may be formed at positions opposite to each other on both sides of the support portion 334 so that the support ball 350 is rotated in a state of being in tight contact with both side surfaces of the core body portion 320, And the center of the rotation groove 336 may be arranged at positions parallel to each other.

5A, the center of the support ball 350 formed on one side of the core holder 330 and the center of the support ball 350 formed on the other side are positioned on the same center line, The center of the support ball 350 formed on one side of the core holder 330 and the center of the support ball 350 formed on the other side are not located on the same center line, It is possible to more stably support both side surfaces of the core body portion 320 having the center so that the upward sliding operation is performed.

This is because the distance between the center A of the support ball 350 on one side of the core holder 330 and the center B of the support ball 350 on the other side It is possible to provide a supporting force that is greater than the supporting force of the support balls 350 positioned on the same center line of each other. Therefore, at the time of upward sliding operation of the core body 320, It is possible to prevent the core body 320 from malfunctioning.

Here, it is preferable that the center of the support ball 350 formed at one side of the core holder 330 and the center of the support ball 350 formed at the other side have a center-to-center deviation of 0.2 mm to 0.4 mm, It does not.

The distance between the support portions 332 of the core holder 330 and the contact points of the support balls 350 contacting the core body portion 320 is 0.3 mm to 0.4 mm, Operation is performed.

Here, when the clearance of less than 0.3 mm is formed, smooth operation can not be achieved as the support portion 332 of the core holder 330 and the outer surface of the core body 320 are brought into surface contact during sliding operation, If the thickness exceeds 0.4 mm, the point contact between the support ball 350 and the core body 320 may not be performed, and malfunction of the core body 320 may occur during the sliding operation. Therefore, .

The slide core 300 of the present invention configured as described above may be constructed so as to have a single up and down operation according to the shape of the undercut formed therein, but the present invention is not limited thereto, and as shown in FIG. 6, At least two or more sets may be installed in the housing 110.

According to the present invention configured as described above, it is possible to reduce the manufacturing cost by downsizing the sliding core 300 of the undercut take-out device 200 for injection-molding an article having an undercut, As it is possible The contact area between the core holder 330 and the core body 320 can be minimized so that the molded product with the undercut can be precisely taken out, the production process can be simplified, the productivity of the product can be maximized, The sliding core 300 is configured such that the product is taken out by the rolling operation of the support ball 350 and the centers of the plurality of support balls 350 formed on the sliding core 300 are formed at positions different from each other It is easy to take out a small size product as the core body 320 operates more precisely.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

110: Lower plate 120:
130: Fixing plate 200: Undercut removing device
210. Eject pin 220:
230: guide shaft 300: slide core
310. Driving shaft 312:
314: engaging portion 316: stopper
320: Core body portion 322: Angle adjusting groove
324: ball contact groove 326: guide groove
330: core holder 332:
336: rotation groove 340: power providing means
350: Support ball 360: Elastic body

Claims (5)

In the slide core for an undercut take-out device,
An ejection pin provided on the inner periphery of the lower plate for slidably actuating the ejection member to eject the ejection member; a lower plate for moving up and down the ejection pin; and a guide shaft supported on both sides of the plate to support the operation of the plate; And
A drive shaft for reciprocating motion of the flat plate in a vertical direction;
A core body coupled to an upper end of the drive shaft and configured to take out an undercut portion of the injection product by a sliding operation;
A core holder formed in a circular or polygonal shape with an opening at one end thereof and formed with a support portion into which the core body portion is inserted and provided with support balls which are provided on both sides of the support portion and support a sliding operation of the core body portion; And
And a power supply means coupled to a lower end of the drive shaft to provide a predetermined elastic force to operate the drive shaft,
And an outer circumferential surface of the slide core.
The method according to claim 1,
On both sides of the core body, a plurality of ball contact grooves are formed to contact the support balls so as to be slidable in a vertical or oblique direction, and guide grooves are formed to connect the ball contact grooves and guide the sliding direction of the core body And a slide core for an undercut extraction device.
The method according to claim 1,
Wherein a plurality of elastic members made of a C spring are provided on the outer circumferential surface of the core holder to provide a predetermined elastic force on the core body side.
The method according to claim 1,
The plurality of support balls are arranged such that the centers of the support balls formed on one side of the core holder and the centers of the support balls formed on the other side have different centers And the slide core is formed of a metal.
The method according to claim 1,
Wherein a distance between a support portion of the core holder and a contact point of the support ball contacting the core body portion is 0.3 mm to 0.4 mm.

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