KR20150035608A - 2 grade withdrawing apparatus having injection mould - Google Patents

Abstract

The present invention relates to an injection mold having a two-step withdrawal device, wherein the two-step withdrawal device comprises: an ejector plate which is arranged between a lower circular plate and a supporting plate, installed with multiple eject pins, and comprises a first and a second ejector plates so as to enable a two-step withdrawal device; a guide pin which guides the vertical movement of the ejector plate, wherein the top end of the guide pin is coupled to the second ejector plate; a guide shaft fixed to the supporting plate; a support housing fixedly coupled to the first ejector plate; a guide housing guiding the vertical movement of the second ejector plate; a holder member which is inserted into the support housing and penetrated by the guide shaft wherein the lower end of the holder member is coupled with the support housing; and a stop ring inserted into the holder member along with the guide housing, which applies pressure to the outer circumferential surface of the guide shaft in accordance with the operation of the guide housing.

Description

[0001] The present invention relates to a two-grade withdrawing apparatus having an injection mold,

The present invention relates to an injection mold provided with a two-stage extraction device. More specifically, a product having an undercut can be taken out more precisely through a two-stage extraction method during injection molding, and a complicated mechanical device is not separately installed in a narrow mold space, thereby improving injection productivity and reducing mold production costs. And more particularly, to an injection mold having a two-stage blowout device capable of maximizing the productivity of a product.

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.

Therefore, the undercut extraction device configured to process the undercut formed on the injection-molded product to take out the product has a protruding shape outside the boss of the plastic product, as disclosed in Korean Utility Model Application Publication No. 2009-0011122 And the outer shape is processed in two stages. If the sleeve is moved by a certain distance, it is processed so that it can not be moved further by the end of the sleeve, and the compression force of the spring is applied to the bottom of the sleeve pin A spring regulating bush and a spring are provided so as to be capable of being operated, and a take-out process for separating the product from the mold can be operated over a second time.

However, in the prior art 1 described above, normal production activities can not be performed, and even if another mechanism device is installed, there is a problem that the space in the mold can not be installed in a narrow space.

Also, as disclosed in Korean Patent Registration No. 10-0835615 (May 30, 2008), a cavity plate having a cavity block and a core plate having a core block formed therein, and an ejection shaft at an inner center of the core plate) And an inclined core which is guided by a pair of guide pieces so as to be guided by a pair of guide pieces so as to be inserted into the inclined core, the inclined core being inserted in a diagonal structure, And the inclined support member is mounted on the upper surface of the core plate on the right side of the eject shaft in a detachment attachment structure.

However, in the above-described prior art 2, as the inclination of the undercut becomes larger, there is a problem that it is difficult to separate the warp core for molding the undercut portion from the product and take out the product safely from the mold at the time of taking out the product from the injection mold. There is a problem that it is not easy to take out the product.

(Patent Document 1) Korean Utility Model Publication No. 2009-0011122 (2009.10.29)

(Patent Document 2) Korean Patent No. 10-0835615 (May 30, 2008)

In order to solve such problems, the present invention has been made in view of the above problems, and it is an object of the present invention to provide an injection molding machine which can more accurately take out a product having an undercut through a two- It is possible to simplify the production process and to maximize the productivity of the product.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described, the present invention provides a flat plate, comprising a lower plate and a lower plate, a plurality of eject pins, A guide pin guiding operation and having an upper end coupled to the second plate; A guide housing fixed to the support plate, a support housing fixedly coupled to the first support plate, and a guide housing guiding the lifting and lowering operation of the second support plate. The guide housing is inserted into the support housing, And a stop ring which is inserted into the guide housing and the holder member and presses the outer circumferential surface of the guide shaft according to the operation of the guide housing, characterized by comprising a two-stage take- And an injection mold provided with the apparatus.

Further, in the present invention, the guide shaft is constituted by a locking groove into which the inner periphery of the stop ring is inserted so as to control the lifting and lowering operation of the guide housing and the first plate, and a stopper for setting the lift operation range of the support housing And a two-stage take-out device.

According to the present invention, there is provided an injection mold having a two-stage take-out device, wherein the support housing is provided with an inner holder which is inserted with a holder member to reduce noise and vibration due to operation of the guide shaft.

Further, in the present invention, the holder member is provided with a ring guide groove to be inserted so that the stop ring is slidably operated, and a ring support portion to which the lower side of the stop ring abuts, Provide an injection mold.

According to the present invention, the stop ring is divided at equal intervals of 120 degrees and inserted into the holder member, and the outer circumferential surface is inserted into the guide housing.

According to the present invention, there is provided an injection mold provided with a two-stage extraction device, characterized in that the two-stage extraction device is constituted by a plurality of at least two or more in the above-mentioned plate.

According to the present invention as described above, a product having an undercut can be taken out more precisely through a two-stage extraction method during injection molding, and a complicated mechanical device is not separately installed in a narrow mold space, thereby improving injection productivity and reducing mold production cost Thus, it is possible to simplify the production process and to maximize the productivity of the product.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of an injection mold equipped with a two-stage extraction device according to a preferred embodiment of the present invention;
FIG. 2 is a view showing a two-stage take-out device of an injection mold according to a preferred embodiment of the present invention,
3 is an assembled cross-sectional view showing a two-stage take-out device of an injection mold according to a preferred embodiment of the present invention,
FIG. 4 is an operational state view showing a two-stage take-out device of an injection mold according to a preferred embodiment of the present invention,
FIG. 5 is a view showing another embodiment of a two-stage take-out device of an injection mold 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. 1 is a schematic view of an injection mold equipped with a two-stage extraction device according to a preferred embodiment of the present invention. FIG. 2 is a diagram showing a two-stage extraction device of an injection mold according to a preferred embodiment of the present invention. FIG. 4 is an operational state diagram showing a two-stage take-out device of an injection mold according to a preferred embodiment of the present invention. FIG. 4 is an exploded perspective view of an injection mold according to a preferred embodiment of the present invention.

As shown in the drawing, the two-stage take-out apparatus for the undercut process of the injection mold according to the present invention is constructed between the lower plate 110 and the support plate 120 so as to enable safe and easy taking out of the injection- An ejection pin 130 for ejecting the ejection material by operation, a plate 140 for fixing the ejection pin 130, and a two-stage extraction device 200 for supporting the ascending and descending operations of the plate 140 .

A plurality of pin guide holes 112 are formed in the lower plate 110 so that the ejection pins 130 are lifted and lowered to take out the injection products.

The support plate 120 is spaced a predetermined distance below the lower plate 110 and is configured to perform a stable lifting and lowering operation of the plate 140 and the double- An insertion hole 122 into which the guide pin 150 is inserted to guide the lifting operation of the two-stage take-out device 200, a fixing groove 124 in which the guide shaft 210 of the two- Hole 126 through which the guide shaft 210 passes is formed.

The plate 140 is formed between the lower plate 110 and the plate 120 and includes a plurality of eject pins 130 and a first plate 142 and a second plate 144, Up operation is performed according to the operation of the plurality of hydraulic cylinders 102 and 104 composed of the first and second hydraulic cylinders 102 and 104 so that the ejection pin 130 is operated to take out the injection molding .

The guide plate 150 passes through the first plate 142 and the support housing 220 of the second stage take-out unit 200 is fixedly coupled to the first plate 142 in accordance with the operation of the first hydraulic cylinder 102. That is, the first flat plate 142 is moved up and down by the support housing 220 which is moved up and down according to the operation of the first hydraulic cylinder 102.

The second plate 144 is moved up and down through a guide pin 150 which is engaged with the end of the guide pin 150 and is lifted and lowered by the second hydraulic cylinder 104, 200 is detachably mounted on the upper side of the first flat plate 142. The guide plate 230 is detachably mounted on the upper side of the first flat plate 142. [

The two-stage picking-out apparatus 200 includes a guide shaft 210 having a lower end fixed to the support plate 120 and a stopper 214 configured to control the upward and downward movement of the push plate 140, A support housing 220 fixed to the first support plate 142 to move up and down the first support plate 142 by the first hydraulic cylinder 102, A guide housing 230 guiding the lifting and lowering operation of the plate 144, an inner holder 240 inserted into the support housing 220, a holder member 250, and a stop ring 260 .

The guide shaft 210 is formed such that a coupling portion 212 in which a screw thread is formed on an inner circumference is recessed so that a lower end of the guide shaft 210 is coupled to a fixing groove 124 of the support plate 120 through a fastening means 202, A locking groove 216 into which the inner periphery of a stop ring 260 to be described later is inserted to control the lifting and lowering operation of the first plate 142 by restricting the lifting operation of the first housing 220, And a stopper 214 for establishing an elevating operation range of the support housing 220 is formed.

The stopper 214 has a washer groove 214a for inserting a washer for absorbing impact generated when the stopper 214 is in contact with the support housing 220, which maintains a firm fixing force with the guide shaft 210, .

The stopper 214 is formed with a lead-in groove 214b into which the head portion of the fastening means 202 is inserted so that the stopper 214 is fastened by the guide shaft 210 and the fastening means 202. At this time, it is needless to say that the fastening portion 212 for fastening the stopper 214 to the upper end of the guide shaft 210 is also formed.

The support housing 220 is fixedly coupled to the first plate 142 through a fastening means 202 and a support flange 226 is formed so that the cylinder axis of the first hydraulic cylinder 102 is engaged. And a holder engaging portion 224 having a threaded inner periphery is formed at the lower end of the holder inserting portion 222 so that the holder engaging portion 222 is fastened to the holder member 250.

The guide housing 230 is located at the upper portion of the support housing 220 and is fastened with the fastening means 202 so as to be fixedly coupled to the second plate 144. The holder housing 250 has a holder through- And a ring insertion groove 232 formed at the lower end of the holder through-hole 234 and into which the stop ring 260 is inserted are formed. Here, the ring insertion groove 232 is formed to closely contact the outer circumferential surface of the stop ring 260, and is configured to support the sliding operation of the stop ring 260.

That is, when the second plate 144 is lifted and lowered from the first plate 142, the guide housing 230 is detached from the support housing 220 and the stop ring 260 is detached from the ring insertion groove 232 The pressing force for pressing the outer circumferential surface of the stop ring 260 is released and the engagement with the locking groove 216 is also released so that the sliding operation of the stop ring 2600 is performed, (220) is operated.

The inner holder 240 is inserted into the holder insertion portion 222 formed in the inner periphery of the support housing 220 to improve the coupling force between the holder 250 and the support housing 220, Is a constituent element for reducing noise and vibration generated by the operation of the support housing 220.

The holder member 250 is inserted into the inner periphery of the inner holder 240 and has a threaded portion corresponding to the thread formed in the holder coupling portion 224 so as to be coupled to the holder coupling portion 224 of the support housing 220 And a shaft through hole 252 formed so as to penetrate from the upper side to the lower side and to move up and down along the outer periphery of the guide shaft 210 is formed.

A ring guide groove 254 is formed in the upper portion of the holder member 250 so that the stop ring 260 is slidably inserted into the guide member 250. The stop ring 260 is moved upward and downward And to control operation.

At this time, a ring supporting portion 256 is formed at the lower end of the ring guide groove 254 of the holder member 250 so that the lower surface of the stop ring 260 contacts the lower surface of the stop ring 260 to smoothly perform the sliding operation of the stop ring 260 But is not limited thereto.

The stop ring 260 is inserted into a ring guide groove 254 formed in the holder member 250 and is configured such that the outer circumferential surface thereof closely contacts the ring insertion groove 232 formed in the guide housing 230.

When the guide housing 230 is not operated, that is, when the product is not taken out of the injection molding, the stop ring 260 is inserted into the guide groove 210 of the guide shaft 210 passing through the holder member 250 by the ring guide groove 254 So that malfunction of the two-stage take-out device 200 is prevented.

In the stop ring 260 of the present invention, when the product is taken out, the sliding operation is performed according to the lifting and lowering operation of the guide housing 230, and the pushing force for pressing the guide shaft 210 is released to move the support housing 220 up and down And is inserted into the locking groove 216 formed in the guide shaft 210 so as to limit the elevating operation range of the first plate 142.

The stop rings 260 are preferably divided at equal intervals of 120 degrees and inserted into the ring guide grooves 254 of the holder member 250, but the present invention is not limited thereto.

As shown in Fig. 4 (a), the two-stage take-out apparatus 200 of the present invention having the above-described structure, when the injection molding is completed and the product on which the undercut is formed needs to be taken out, The first and second hydraulic cylinders 102 and 104 are operated to elevate and operate the guide pin 150 and the second stage take-out device 200 as shown in FIG.

At this time, the support housing 220 and the guide pin 150 formed in the second stage take-out device 200 are moved up and down along the outer periphery of the guide shaft 210 based on the power of the first and second hydraulic cylinders 102 and 104 As the operation is performed, the first plate 142 and the second plate 144 located on the upper portion of the first plate 142 are moved upward.

The stop ring 260 is moved along the outer circumferential surface of the guide shaft 210 together with the inner holder 240 and the holder member 250 formed inside the support housing 220, The inner circumferential surface of the stop ring 260 and the outer circumferential surface of the locking groove 216 are coupled with each other by the pressing force so that the lifting operation of the support housing 220 is restricted so that the lower plate 110 and the molded product are separated from each other.

4 (c), the second hydraulic cylinder 104 is further raised and lowered to move the guide pin 150 upward, whereby the second plate 144 is moved upwardly to the first plate The stop ring 260 is disengaged from the locking groove 216 and the lower end of the stop ring 260 is positioned in a state where the lowering operation of the support housing 220 is enabled 4 (d), when the second plate 144 is returned to its original position, the stop ring 260 is inserted into the guide housing 230, and at the same time, 1 plate 142 is also moved downward along the outer circumferential surface of the guide shaft 210 to return to the original position so that the take-out cycle of the molded product in which the undercut is formed is performed again.

As shown in FIG. 5, the two-stage extraction device 200 of the present invention includes a plurality of two-stage extraction devices 200 and 200A and a plurality of hydraulic cylinders 102 and 104 First to third plates 142, 144, and 146, in which the plurality of two-stage take-out devices 200 and 200A are installed, and a plurality of ejectors The fin 130 can be more accurately taken out of the molded product.

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: eject pin 140:
142: first plate 144: second plate
150: guide pin 200: two-stage take-out device
210: guide shaft 212: stopper
216: locking groove 220: support housing
230: guide housing 232: ring insertion groove
234: holder through hole 240: inner holder
250: holder member 252: shaft through hole
254: ring guide groove 260: stop ring

Claims (5)

A flat plate formed between the lower plate and the support plate, the plate being divided into first and second flat plates so that a plurality of eject pins are provided and the second flat plate is taken out;
A guide pin passing through the first plate and coupled to the second plate, and a second hydraulic cylinder being formed at the lower end to move the second plate up and down; And
A guide shaft fixed to the base plate,
A support housing coupled to the first plate and configured to move up and down along the outer periphery of the guide shaft,
A guide housing for guiding the lifting and lowering operation of the second plate,
A holder member inserted into the support housing to penetrate the guide shaft and having a lower end fastened to the support housing,
And a stop ring which is inserted into the guide housing and the holder member and presses the upper outer peripheral surface of the guide shaft in accordance with the operation of the guide housing,
And a second-stage take-out device.
The method according to claim 1,
Wherein the guide shaft is constituted by a locking groove into which the inner periphery of the stop ring is inserted to control the lifting and lowering operation of the guide housing and the first plate and a stopper for setting a lift operation range of the support housing Equipped injection mold.
The method according to claim 1,
Wherein the support housing is provided with an inner holder having a holder member inserted therein for reducing noise and vibration due to operation of the guide shaft.
The method according to claim 1,
Wherein the holder member is formed with a ring guide groove into which a stop ring is slidably inserted and a ring support portion with which a lower side of the stop ring contacts.
The method according to claim 1,
Wherein the stop ring is divided at equal intervals of 120 degrees and inserted into the holder member, and an outer circumferential surface thereof is inserted into the guide housing.

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