KR101559233B1 - Separated Adapter of Injection Screw - Google Patents

Abstract

The present invention relates to a peripheral device for transmitting power to an injection screw of an injection molding machine, and in particular, does not require correction of a pulley for transmitting power when an injection screw is replaced.
According to an aspect of the present invention, there is provided a splitting adapter for an injection screw, comprising: a shaft rotated by a power transmitted by a pulley mounted on an outer circumference; an injection screw which is aligned with the shaft and moves back and forth along the shaft; A first adapter fixed to an end surface of the shaft in a state in which the injection screw is penetrated therethrough and a nut for limiting a position of the pulley on an outer circumferential surface of the first adapter and an insert inserted between the inner peripheral surface of the first adapter and the shaft, And a second adapter extending rearwardly from the first adapter.

Description

Separated Adapter of Injection Screw

The present invention relates to a peripheral device for transmitting power to an injection screw of an injection molding machine, and in particular, does not require correction of a pulley for transmitting power when an injection screw is replaced.

The injection screw of the injection molding machine sufficiently supports the pressure of the resin during the injection operation and makes it possible to precisely detect the resin pressure by simplifying the delivery path of the resin pressure.

The operation of the motor-driven injection molding machine using a servo motor will be briefly described. In the plasticizing / metering process, resin is supplied from the hopper to the inside of the heating cylinder, and the resin is melted at the same time as the injection screw is rotated. At this time, the injection screw receives the resin pressure by the molten resin.

In the next injection process, the injection screw is advanced by the servomotor, and the tip of the injection screw acts as a piston to fill the molten resin into the mold.

1 is a schematic view showing a structure for transmitting rotational power to an injection screw of a conventional injection molding machine, and FIG. 2 is a sectional view showing the structure shown in FIG.

As shown in Figs. 1 and 2, the injection screw 10 is mounted on the S shaft 20 and is driven by the forward and backward movement of a ball screw (not shown) connected to the rear end of the S shaft 20 The screw 10 and the S shaft 20 move forward and backward.

1, the hollow 41 of the adapter 40 is passed through the injection screw 10 and the nut 30 is fastened to the outer circumferential surface of the adapter 40 as shown in FIG.

On the other hand, a key 21 is formed at the front end of the S shaft 20, and a pulley (not shown) is fitted to the key 21 to transmit the rotation of the pulley to the S shaft 20, And the injection screw 10 are rotated together.

Here, the nut (30) mounted on the adapter (40) is configured to prevent the pulley from coming off, and the adapter (40) is mounted to fasten the nut (30).

When replacing the injection screw 10 in this structure, the nut 30 must be loosened to dismantle the adapter 40, and then the injection screw 10 should be replaced. However, as described above, The position of the pulley is changed, so that it is necessary to correct the position of the pulley and adjust the tension when replacing the injection screw 10.

This is a separate task other than the replacement of the injection screw. In addition to the manpower and time required for the replacement work of the shaft, there is a problem that labor and time required for position correction and tension adjustment of the pulley are further required.

Korean Patent Publication No. 10-2004-0054851 (published on June 26, 2004)

It is an object of the present invention to provide a split adapter for an injection screw which can replace an injection screw in a fixed position of a pulley.

According to an aspect of the present invention, there is provided a splitting adapter for an injection screw, including: a shaft rotated by a power transmitted by a pulley mounted on an outer circumference; an injection screw which is aligned with the shaft and is movable forward and backward, A first adapter fixed to an end surface of the shaft in a state in which the injection screw is penetrated therethrough and a nut for limiting a position of the pulley on an outer circumferential surface of the first adapter and an insert inserted between the inner peripheral surface of the first adapter and the shaft, And a second adapter extending rearwardly from the first adapter.

According to a preferred embodiment of the present invention, the first female screw holes to which the first bolts mounted on the first adapter are coupled and the second female screw holes to which the second bolts mounted on the second adapter are screwed, Are spaced along the circumference.

According to a preferred embodiment of the present invention, the first adapter is formed with a through-hole through which the first bolt is inserted and a through-hole through which the second bolt penetrates, corresponding to the first and second internally threaded holes of the shaft The first bolt inserted into the through hole of the first adapter is coupled to the first internal thread and the second adapter is formed with the through holes into which the second bolt is inserted and the inserted second bolt is inserted into the through hole of the first adapter And is fastened to the second female screw hole.

According to a preferred embodiment of the present invention, the outer diameter of the insertion portion is larger than the outer diameter of the rear end of the injection screw.

As described above, the splitting adapter of the injection screw according to the present invention is characterized in that when the injection screw is replaced, part of the adapter is disassembled without disassembling the nut fixing the position of the pulley, and then the injection screw is replaced, There is an advantage that the positional correction of the position is not necessary. In this way, since the position correction of the pulley is not required, there is an effect of saving manpower and shortening the time, and there is an advantage that the subsequent injection work is smoothly proceeded.

1 is a schematic view showing a structure for transmitting rotational power to an injection screw of a conventional injection molding machine,
2 is a cross-sectional view showing the structure shown in Fig.
Figure 3 is an injection screw equipped with a splitter adapter according to the invention,
4A and 4B are cross-sectional views of the splitter adapter and the injection screw shown in Fig. 3,
FIG. 5 is a conceptual diagram showing a relationship in which the split adapter shown in FIG. 4 is divided to replace the injection screw.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a splitting adapter of an injection screw according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view of the split adapter and the injection screw shown in Fig. 3, Fig. 5 is a sectional view of the split adapter shown in Fig. 4, FIG. 4 is a conceptual diagram showing a relationship in which an injection screw is divided and replaced. FIG.

3 and 4A, the split adapter 100 includes a first adapter 110 fixed to the S shaft 20 through the injection screw 10 and having a nut 30 fastened to the outer periphery thereof, And a second adapter 120 positioned in front of the first adapter 110 and fixed to the S shaft 20 while surrounding the periphery of the injection screw 10.

In the following, the partitioning adapter configured as described above will be described in detail.

A first female screw hole 11 for fixing the first adapter 110 is formed on an end surface of the S shaft 20 on which the injection screw 10 is mounted and a second female screw hole 11 for fixing the second adapter 120 A hole 12 is formed. Here, the first female screw hole 11 and the second female screw hole 12 are positioned at the same angle with respect to the injection screw 10.

On the other hand, the injection screw 10 is inserted into the end face of the S shaft 20 and interlocked by the rotation and linear movement of the S shaft 20. As described above, the S-shaft 20 is rotated by the rotation of the pulley connected by the key 21, and is moved in the forward and backward directions by the linear movement of the ball screw.

The first adapter 110 is positioned at an end face of the S shaft 20 having the first female screw hole 11 and the second female screw hole 12 formed therein. The first adapter 110 is formed with a male screw 111 to fasten the nut 30 to the outer circumferential surface and through holes 113 are formed corresponding to the first female screw hole 11 and the second female screw hole 12 . The first bolt 131 which is the first fastening means to be fastened to the first female screw hole 11 is fastened to the first female screw hole 11 through the through hole 113 of the first adapter 110. [ Then, the first adapter 110 is fixed to the end surface of the S shaft 20 by the fastening of the first bolt 131.

A nut 30 is fastened to a male screw 111 formed on an outer circumferential surface of the first adapter 110 and is engaged with an S shaft Thereby fixing the position of the pulley mounted on the pulley 20.

In this way, the second adapter 120 is mounted in front of the first adapter 110 to which the nut 30 is fastened.

The second adapter 120 is formed with an insertion portion 121 inserted rearwardly between the inner circumferential surface of the first adapter 110 and the injection screw 10. A through hole 123 of the second adapter 120 is formed in the end surface of the second adapter 120. The through hole 123 of the second adapter 120 is inserted into the through hole 113 and the S shaft 20 of the first adapter 110, Of the second female screw hole (12).

Here, the outer diameter of the insertion portion 121 is larger than the maximum outer diameter of the rear end of the injection screw 10. More specifically, a hexagonal block 15 matching the S-shaft 20 is formed at the rear end of the injection screw 10. The outer diameter of the insertion portion 121 is formed to be larger than the diameter of the hexagonal block 15. The rear end block 15 of the injection screw 10 can be taken out without interfering with the first adapter 110 when the injection screw 10 is taken out in a state in which the second adapter 120 described later is removed.

When the second adapter 120 is removed, the injection screw 10 can be drawn out through the hollow 110H of the first adapter 110 and the rear end of the new injection screw 10 to be replaced is also connected to the first adapter 110. [ (20) through the hollow (110H) of the shaft (110).

The second bolt 132 as the second fastening means inserted into the through hole 123 of the second adapter 120 is inserted into the S shaft 20 through the through hole 113 of the first adapter 110, And is screwed to the second female screw hole (12). The second bolt 132 is fastened to the S shaft 20 through the first adapter 110 so that the second adapter 120 remains fixed to the front of the first adapter 110, The insertion portion 121 of the adapter 120 is fixed while being wrapped around the injection screw 10 while being inserted into the first adapter 110.

On the other hand, the procedure for disassembling the split adapter 100 configured as described above will be described in detail below.

When the injection screw 10 is to be replaced, the second bolt 132 located on the end face of the second adapter 120 is disassembled and disassembled. The second adapter 120 then draws forward along the injection screw 10. The insertion portion 121 of the second adapter 120 is drawn out of the first adapter 110 and the injection screw 10 is also disassembled via the hollow 110H of the first adapter 110. [

The rear end of the injection screw to be dismantled and replaced is mounted to the S shaft 20 through the hollow 110H of the first adapter 110. [ After the second adapter 120 is mounted, the second adapter 120 is fixed to the first adapter 110 through the second bolt 132.

When the injection screw 10 is replaced, the nut 30 is directly fixed to the first adapter 110, and even if the injection screw 10 is replaced as the pulley maintains the correct position in the S-shaft 20, There is an advantage that no correction is required.

10: Injection screw
20: Shaft
30: Nut
100: Split adapter
110: first adapter
111: male thread
120: Second adapter
121:
131, 132: Bolt

Claims (4)

A shaft 20 rotated by a power transmitted by a pulley mounted on the outer periphery,
An injection screw 10 matched with the shaft so as to move back and forth and rotate along the shaft,
A first adapter 110 fastened to the end surface of the shaft by the first fastening means in the state where the injection screw is penetrated and fastened with a nut 30 restricting the position of the pulley on the outer circumferential surface,
And a second adapter (120) which is located in the end surface of the first adapter and extends rearwardly and which is inserted between the inner peripheral surface of the first adapter and the shaft, and which is fastened to the shaft by the second fastening means The splitting adapter of the injection screw.
The method according to claim 1,
A first female screw hole 11 to which a first bolt 131 as a first fastening means attached to the first adapter is fastened and a second bolt 132 as a second fastening means to be fastened to the second adapter, And the second female screw holes (12) are formed at intervals along the circumference of the second female screw holes (12).
3. The method of claim 2,
The first adapter is formed with through holes through which the first bolt is inserted and through holes through which the second bolt penetrates in correspondence with the first female screw holes and the second female screw holes of the shaft and is inserted into the through hole of the first adapter The first bolt being fastened to the first female screw hole and the second adapter being formed with through holes into which the second bolt is inserted and the inserted second bolt is fastened to the second female screw hole through the through hole of the first adapter Wherein the splitting adapter of the injection screw.
4. The method according to any one of claims 1 to 3,
And the outer diameter of the insertion portion is larger than the outer diameter of the rear end of the injection screw.

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