KR101943839B1 - Vent-type catapult having opening/shutting cap for closing vent - Google Patents

Abstract

The present invention relates to a vent injector having a vent hole closing vent hole for discharging a gas generated during a heating and kneading process of a raw material in a heating cylinder by a vent hole, The vent hole 15 is formed outside the vent hole 15 and the vent hole 15 is closed by selectively coupling the vent hole 15 to the vent hole 15, Therefore, it is possible to use vent type injector as a general incinerator that can be used as a non-ventilated type by closing the vent hole, thereby improving the efficiency of the injection molding machine and thereby maximizing the economical efficiency.

Description

[0001] The present invention relates to a vent-type catapult having opening / shutting cap for closing vent having a vent hole closing vent,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vent type injector for discharging gas generated during a heating and kneading process of a raw material in a heating cylinder by a vent hole, and more particularly to a vent type injector for closing a vent hole by coupling a desorption cap to a vent hole of a heating cylinder body To a vented injection molding machine having a vent hole closing vent hole capable of being switched to a non-venting type.

Generally, an injection machine is an apparatus for molding various extruded products by means of an extrusion die by supplying various kinds of raw materials in the form of powder or pellets while heating and kneading them in a heating cylinder.

Particularly, in recent years, due to the development of material technology, extrusion molding is increasingly carried out by a composite raw material in which a plurality of raw materials are blended rather than a single raw material.

When the composite raw material is used, the melting point, the carbonization condition, and the like are different for each raw material, and a large amount of gas is generated during the heating and kneading process as compared with the single raw material due to the chemical reaction between the heterogeneous raw materials.

Also, gas is generated by the moisture contained in the raw material.

As described above, the gas generated during the heating and kneading process of the raw material causes a failure of the extruded product, and therefore, a gas discharge process is required.

A vented injection machine having such a gas venting structure is known.

The vent injector forms a vent hole in the body of the heating cylinder to discharge the gas generated during the heating and kneading process of the raw material to the outside.

Such a vented injection molding machine uses a heating cylinder having a screw therein in the same manner as a general injection molding machine, except that a vent hole is formed in the body of the heating cylinder or is not formed.

Thus, conventionally, since the general injection machine or the vent type injection machine are separately used according to the extrusion raw material or the extrusion condition, the efficiency is low and the economical efficiency is lowered due to the increase in the cost due to the redundant facility investment.

Accordingly, the present applicant has sought to develop a technique for converting a vent type injection machine into a non-venting type such as a general injection molding machine.

Patent Document 1: Registration No. 10-1340482 Patent Document 2: Utility Model Application No. 1974-0199

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems of the prior art, and a vent hole formed in a heating cylinder body of a vent type injector is closed by engagement of a detachable cap to enable a vent type injector to be used as a general injector It has its purpose.

The present invention is configured such that a raw material is supplied while being heated and kneaded by a screw inserted into a body of a heating cylinder,

The heating cylinder is configured to form a vent hole for discharging gas to the outside of the body, and to selectively use the vent hole by closing the vent hole by selectively coupling the vent hole with the vent hole.

The heating cylinder body has a vent hole formed inward by a seating groove portion formed by vertically and horizontally cutting away from the outside in the widthwise center direction, and the detachable cap forms a cap body corresponding to the seating groove portion, And a curved surface portion corresponding to an inner curved surface of the vent hole is formed between the vertical supporting surface and the horizontal supporting surface, and a vertical supporting surface and a horizontal supporting surface which are vertically and horizontally tightly adhered to the seating groove on the inner side of the body.

According to another aspect of the present invention, a cap cover for supporting a detachable cap is further provided by forming a slot groove in an upper portion of the heating cylinder body and the detachable cap.

In the present invention, the vent hole can be switched to a non-venting mode by closing the vent hole with a coupling of a detachable cap in a vent type injector for discharging gas generated during a heating and kneading process of a raw material in a heating cylinder by a vent hole .

That is, the bent-type injection molding machine can be commonly used as a non-ventilated general injection molding machine by closing the vent hole, thereby improving the efficiency of the injection molding machine and thereby maximizing the economical efficiency.

1 is a plan view showing a state before the attaching / detaching cap is attached to the injector of the present invention.
2 is a plan view of the injector of the present invention in a detachable cap engagement state.
3 is a sectional view taken along the line AA in Fig.
Fig. 4 is an exploded perspective view of the essential part of Fig. 3; Fig.
5 is a perspective view showing a detachable cap of the present invention.
6 is a side view of Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A vent type injector having a vent hole closing cap for closing the vent hole of the present invention is constructed by heating and kneading a raw material with a screw 20 inserted into a body 11 of a heating cylinder 10 as shown in FIGS. 1 to 6 So that it can be extruded.

Particularly, the heating cylinder 10 has a vent hole 15 for discharging gas outside the body 11,

And the vent hole 15 is selectively connected to the vent hole 15 by selectively coupling the detachable cap 30 to the vent hole 15.

The heating cylinder body 11 is formed with a vent hole 15 inward by a seating groove 16 formed by removing vertical and horizontal cuts from the outside in the widthwise center direction,

The cap body 30 has a vertical support surface 32a and a horizontal support surface 32a which are vertically and horizontally closely attached to the seating groove on the inner side of the cap body 31, And a curved surface portion 32c corresponding to the inner curved surface of the vent hole 15 between the vertical support surface and the horizontal support surface.

The cap body 31 of the detachable cap 30 forms a first screw hole 35a in a vertical direction and a second screw hole 35b in a horizontal direction to form the first and second assembly bolts 41 and 42, In the vertical and horizontal directions in the seating groove portion 16 of the heating cylinder body 11 by means of the fastening means.

A cap lid 36 for supporting the detachable cap 30 is further formed by providing a slotted groove 17 on the heating cylinder body 11 and the upper portion of the detachable cap 30.

At this time, the cap cover 36 is fastened to the body 11 of the heating cylinder by the third assembly bolt 43.

The cap body 31 of the detachable cap 30 is further formed with a recessed portion 33 which is vertically penetrated through the vent hole 15 at an inner center thereof.

Reference numeral 12 denotes a transfer hole into which the screw 20 is inserted in the heating cylinder body 11. [

Hereinafter, the operation and operation of the present invention will be described.

The vented extruder of the present invention is configured such that the internal raw materials are supplied while being heated and kneaded by a screw (20) inserted in the transfer hole (12) inside the heating cylinder (10) and passed through the extrusion die to form various extruded products.

Particularly, since the gas generated during the heating and kneading process of the raw material in the heating cylinder 10 is discharged to the outside through the vent hole 15 formed outside the body 11 of the heating cylinder, defective molding of the extruded product is prevented .

Meanwhile, the vent type injector of the present invention can be simply switched to a non-vent type, that is, a general injector by closing the vent hole 15 according to extruded raw materials, molding conditions and the like.

This is possible by engaging the vent hole (15) formed outside the body (11) of the heating cylinder to close it with the removable cap (30).

More specifically, the cap body 31 of the detachable cap is seated and coupled to the seating groove 16 formed by vertically and horizontally cutting off the center of the body 11 of the heating cylinder.

At this time, the cap body 31 is seated so that the vertical support surface 32a and the horizontal support surface 32b are in close contact with the vertical and horizontal cut surfaces of the seating groove 16.

The curved portion 32c between the vertical support surface and the horizontal support surface of the cap body 31 is formed in correspondence with the inner curved surface of the vent hole 15 so that rotation of the screw and feeding and feeding of the raw material are smoothly induced .

In this state, the cap body 31 fastens the first and second assembly bolts 41 and 42 to the first screw hole 35a in the vertical direction and the second screw hole 35b in the horizontal direction, As shown in Fig.

The heating cylinder body 11 and the heating cylinder 40 are connected to the third assembly bolt 43 in a state in which the cap cover 36 is covered with the slotted groove portion 17 on the upper portion of the heat- To be assembled to the body (11).

Since the vent hole 15 formed in the body 11 of the heating cylinder is closed as described above, the vent type injector can be simply switched to a general injector.

The injector used in the non-venting mode is passed through the extrusion die while heating and kneading the raw material with the screw 20 inserted in the transfer hole 12 in the heating cylinder 10, Thereby forming various extruded products.

In this process, gas is not generated inside the heating cylinder 10, and the vent hole is closed as well as the venting process is omitted, unlike the venting type described above.

Accordingly, in the present invention, the vent hole is closed by the coupling of the detachable cap in the vent type injector for discharging the gas generated during the heating and kneading process of the raw material in the heating cylinder by the vent hole, It can be used in combination.

10: heating cylinder 11: body
12: Feed hole 15: Vent hole
16: seat groove 17: slot groove
30: detachable cap 31: cap body
32a: vertical support surface 32b: horizontal support surface
32c: curved surface portion 36: cap cover
35a and 35b:
41, 42, 34: 1st,

Claims (3)

A vent type injector for feeding a raw material while heating and kneading by means of a screw (20) inserted into a body (11) of a heating cylinder (10)
The heating cylinder (10) forms a vent hole (15) for discharging gas outside the body (11)
The vent hole (15) is configured to be switched to the non-venting mode by selectively coupling the desorption cap (30) and closing the vent hole (15)
The heating cylinder body (11) has a vent hole (15) formed inward by a seating groove part (16) formed by vertically and horizontally cutting off from the outside in the widthwise center direction,
The cap body 30 has a vertical support surface 32a and a horizontal support surface 32a which are vertically and horizontally closely attached to the seating groove on the inner side of the cap body 31, And a curved surface portion 32c corresponding to an inner curved surface of the vent hole 15 between the vertical supporting surface and the horizontal supporting surface,
The cap body 31 of the detachable cap 30 further includes a recessed portion 33 which is vertically penetrated through the vent hole 15 at an inner center thereof,
Wherein a cap lid (36) for supporting a detachable cap (30) is formed by further forming a slot groove (17) at an upper portion of the heating cylinder body (11) and the detachable cap (30) A vent injector with a removable cap.
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