KR101957956B1 - Injection equipment for manufacture of needleless injection syringe - Google Patents

Abstract

The present invention includes a hopper (1) for introducing a raw material (A) and is provided with a needle-free injector (4) through a screw (3) for transferring a molten raw material (A) And an inflow groove (11) for accommodating the molten material (A) in the downstream of the screw (3) and forming the shape of the needle-free injection syringe (4) (10) having a forming pin (12) to form a nozzle hole (4a) in front of the injector injector (4); And the material A supplied from the screw 3 to prevent breakage or warping of the forming pin 12 through the pressure of the material A melted at a high temperature between the screw 3 and the mold part 10 A discharging portion 22 for discharging the introduced material A and a temperature holding portion 23 for receiving water at a constant temperature to control the temperature of the material A introduced into the outside, And a material inlet means 20 having an impeller 24 rotated from the shaft 25 so as to smoothly flow the introduced material A to the discharge portion 22 .
Accordingly, it is an object of the present invention to provide an effect of minimizing the defect rate due to smooth inflow of the material while preventing the molding pin of the mold portion forming the nozzle hole formed on the injection syringe from being damaged or warped.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an injecting apparatus for injecting a needle-

More particularly, the present invention relates to an injection molding apparatus for a needle-free injection syringe, and more particularly, to an injection molding apparatus for injection molding a needle-free injection syringe which minimizes the defective rate by smooth inflow of the material while preventing the molding pin of the mold section, And more particularly, to an injector manufacturing apparatus for injecting injectors without needles.

Typically, needle-free injectable syringes are widely used for medical purposes including insulin and anesthetics, as well as for skin care for skin care and the like. Especially, in the sensitive area of human body such as eyes, nasal cavity, mouth and skin, And delivering the drug without a needle to the tissue with minimal trauma. Generally, such a syringe is made of a material made of polypropylene (PP), and it is necessary to form a minute hole so that the inner medicine can be sprayed in front of the syringe.

For example, Korean Patent Registration No. 1907552 discloses a valve body having an internal space in the longitudinal direction; A valve member slidably movable in an inner space of the valve body and having a plurality of protrusions hermetically sliding on an inner wall of the valve body on an outer periphery; A liquefied gas container having one end detachably coupled to the valve body and communicating with an inner space of the valve body in a state in which a nozzle portion formed at the other end is opened; An operation knob provided at an end of the valve member exposed from the valve body; A cylinder body coupled to one side of the valve body, one end closed and having an internal space in the longitudinal direction; A piston member having one end slidably in contact with the inner space of the cylinder body in a hermetic manner and having a piston rod from the one end; A syringe piston rod detachably coupled to the cylinder body, the syringe piston rod being in contact with or coupled with the piston rod; A gas passage for selectively moving and closing the inner space of the valve body and the inner space and the outer space of the cylinder body in accordance with the filling of the gas ejected from the liquefied gas container and the pressing operation of the operation knob, Wherein the valve body and the cylinder body are integrally covered by the housing and the valve member is formed with an elongated groove having a predetermined length in the longitudinal direction along the central portion at one end thereof and the other end is formed outside the valve body The protruding portion formed on the outer edge of the valve member includes a plurality of first extending flange portions projecting radially outward from the center portion and a plurality of second extending flange portions projecting radially outward from the end portion facing the liquefied gas container And a second extension flange portion of the first extension flange portion and the second extension flange portion, respectively, Is provided in the mounting groove sex presents a no-needle painless injection device, comprising the sliding sealing member for maintaining airtightness while in sliding contact with the inner surface of the valve body.

However, such a needle-less non-puncture injection device has to be manufactured individually as a whole, resulting in a difficulty in manufacturing, and a complicated structure may be formed, resulting in a burden on consumers due to an increase in manufacturing cost due to individual manufacturing.

Korean Patent No. 1907552 " No needleless injection device "

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a method of injecting injection syringes which can minimize breakage due to smooth inflow of a material while preventing breakage or warpage of molding pins of a mold, The present invention has been made in view of the above problems.

In order to achieve the above object, the present invention provides a manufacturing apparatus for injecting a needle-free injection syringe through a screw for feeding a molten material through a molten material, the apparatus comprising: A mold part having an inflow groove for receiving the molten material and forming a shape of a needle-less injectable syringe, and having a forming pin for forming a nozzle hole in front of a needle-less injecting syringe; An inlet portion for introducing the material supplied from the screw so as to prevent breakage or warping of the forming pin through the pressure of the material melted at a high temperature between the screw and the mold portion, a discharge portion for discharging the introduced material, And a material inlet means having a temperature holding portion for receiving water of a predetermined temperature to control the temperature of the material to be fed and an impeller for rotating the introduced material from the shaft so as to allow a smooth and constant flow to the discharge portion, do.

delete

The impeller of the material inflow means is rotated in a state in which the inflow material is inclined at 35 to 45 degrees with respect to the axis so that the inflow material can flow uniformly and smoothly.

It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described above, the present invention provides the effect of minimizing the defective rate due to the smooth inflow of the material while preventing the forming pin of the mold portion forming the nozzle hole formed on the injection syringe from being broken or bent.

1 is a cross-sectional view showing an injection molding apparatus for injection needleless syringe according to the present invention,
2 is an enlarged view showing a main configuration of an injection molding apparatus for a needle-less injectable syringe according to the present invention,
FIG. 3 is a perspective view of a needle-less injectable syringe manufactured through an injection molding apparatus for injection needleless syringe according to the present invention. FIG.

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

2 is an enlarged view showing a main configuration of an injection molding apparatus for a needle-less injection syringe according to the present invention, and Fig. 3 is an enlarged view of a main part of the injection molding apparatus for injection needleless syringe according to the present invention. FIG. 2 is a perspective view illustrating a needle-free injector manufactured through an injection apparatus for injecting a needle-less injectable syringe according to the present invention.

The present invention relates to a method of manufacturing an injection molding machine having a hopper (1) for introducing a raw material (A) through a screw (3) for transferring a molten raw material (A) The mold unit 10 and the material inflow unit 20 are mainly constituted by a manufacturing apparatus for injecting the injector 4. The material (A) is made of PP (polypropylene), and the PP is a thermoplastic resin obtained by polymerizing propylene. When the material A is put on the hopper 1, the material A is introduced into the hopper 1 through a heater (not shown) formed in the lower part of the hopper 1, . At this time, the screw (3) rotates to flow the molten material (A) to the mold part (10) described later.

The mold part 10 according to the present invention has an inflow groove 11 for accommodating molten material A downstream of the screw 3 and forming the shape of a needleless injection syringe 4, The injection pin (12) is provided so that the nozzle hole (4a) is formed in front of the needle injection syringe (4). The mold section 10 is provided with an inflow groove 11 for introducing the molten material A into a needle-less injectable syringe. The injection pin 12 is provided on the front side of the needle-free injection syringe so that a nozzle hole 4a having a small size can be formed so that the drug contained therein can be injected. In the case of the material (A), the molten material gradually starts to melt at about 120 ° C and is molded at 280 to 300 ° C.

The material inlet means 20 according to the present invention prevents breakage or bending of the forming pin 12 through the pressure of the material A melted at a high temperature between the screw 3 and the mold portion 10 . The molding pin 12 of the mold section 10 is thinly formed. Therefore, when the molding pin 12 is injected at a high temperature, the molding pin 12 may be bent or broken due to pressure as well as temperature, Injection molding is difficult, which is a problem that can not be used because it can cause scars on the skin when the drug is contained in the injection needle (4), which is defective and has a defective needleless needle. Occurs. In this case, it takes a long time to deform the warpage and warpage, so that the material inflow means 20 can not be used, To prevent this.

The material introduction means 20 includes an inlet 21 for introducing the material A supplied from the screw 3, a discharge portion 22 for discharging the introduced material A, A temperature holding unit 23 for holding a predetermined temperature of water to control the temperature of the material A and a heater 23 for holding the introduced material A from the shaft 25 And a rotating impeller (24). The material introducing means 20 includes an inlet 21 for introducing the material A supplied from the screw 3 and a discharging portion 22 for discharging the introduced material A to the mold portion 10 So that the introduced material A flows naturally. The temperature holding portion 23 is provided outside the material A so as to set the temperature of the material A. The temperature holding portion 23 controls the temperature of the material A through water having a constant temperature. And a plurality of impellers 24 rotating from the shaft 25 so as to smoothly flow the introduced material A to the discharge portion 22. [ The impeller 24 is rotated by the shaft 25 and discharges the material A to be introduced into the mold section 10 so that the material A flows into the mold section 10 through the proper pressure. So that the above-described forming pin 12 is safely protected, thereby enabling perfect molding.

The impeller 24 of the material inflow means 20 is formed in a state in which the inflow material A is inclined at 35 to 45 degrees with respect to the shaft 25 . The material introduction means 20 is formed at the downstream end of the screw 3 to flow the material A as described above so that the impeller 24 is rotated through the inclination of 35 to 45 degrees from the shaft 25 So that the material A flows smoothly. That is, since the impeller 24 is inclined toward the discharge portion 22, the impeller 24 is not simply moved up the material A but is directly introduced into the discharge portion 22, The flow and pressure can be adjusted.

As described above, the present invention provides the effect of minimizing the defective rate due to the smooth inflow of the material while preventing the molding pin of the mold portion forming the nozzle hole formed on the injection syringe from being damaged or warped.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

1: hopper 2:
3: Screw 4: Needle injection syringe
4a: nozzle hole 10: mold part
11: inlet groove 12: forming pin
20: Material inlet means 21:
22: discharge part 23: temperature holding part
24: impeller 25: shaft
A: Material

Claims (3)

A hopper 1 for introducing a raw material A and injecting a needleless injection syringe 4 through a screw 3 which melts and feeds the introduced raw material A through a molten portion 2 The apparatus comprising:
And an inflow groove 11 for accommodating the melted material A and forming the shape of a needleless injector 4 downstream of the screw 3 and is provided in front of the needleless injector 4 A mold portion 10 having a forming pin 12 to form a nozzle hole 4a; And
The material A supplied from the screw 3 flows into the space between the screw 3 and the mold part 10 to prevent the molding pin 12 from breaking or bending through the pressure of the material A melted at a high temperature An outlet 22 for discharging the introduced material A, a temperature holding unit 23 for holding water at a constant temperature to control the temperature of the material A introduced into the outside, And a material inlet means (20) having an impeller (24) rotated from the shaft (25) so that the introduced material (A) can flow smoothly and constantly in the discharge portion (22) Needle injection syringe injection device. delete The method according to claim 1,
The impeller 24 of the material inflow means 20 is rotated in a state of being inclined at 35 to 45 degrees with respect to the shaft 25 so that the inflow material A can flow smoothly and constantly to the discharge portion 22 Wherein the injector is mounted on the injection needle.

Images