KR20160063607A - Injection molding machine - Google Patents

Abstract

The present invention discloses a hot runner device for controlling the amount of resin. The device of the present invention is installed in a hot runner having a resin passage for injecting melted resin into a die cavity and controls the amount of resin passing through, and comprises a control rotating body in which one end is installed across the resin passage and the other end of which is installed rotatably and exposed to the outside, and both sides of a portion installed on the resin passage are removed to form a panel having a thickness, the control rotating body including a control panel unit that can rotate and adjust the size of the resin passage; and a resin pressure control device which is connected to the externally exposed other end of the control rotating body and transfer a rotating force, the resin pressure control device including a motor that receives power from the outside and rotates in the forward or reverse direction and a controller that is electrically connected to the motor and transmits a control signal to the motor. The device so configured has a simple structure and can be conveniently applied to manifolds or nozzles, thereby allowing the worker to precisely control the resin flow rate using a motor or flexible shaft control unit in small work spaces. Further, inconsistencies in the discharge amount of resin caused by machining errors from hot runners using multi-type nozzles or from branched resin passages of manifolds can be compensated, thereby improving productivity and helping maintain desirable qualities of the molded products.

Description

[0001] Injection molding machine [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot runner having a resin amount adjusting device, and more particularly, to a hot runner having a manifold for branching and supplying resin, and a nozzle connected to the manifold for supplying resin to a cavity of the mold The present invention relates to a hot runner resin amount adjusting apparatus capable of finely adjusting the flow rate of a resin passing through an applied section, thereby improving convenience in use.

Generally, an injection molding machine for molding a plastic product injects a resin material into a manifold from a mold cylinder in which a resin is melted. The injected resin is uniformly distributed along a resin flow path branched in the manifold, And is injected into a molding space, that is, a cavity, formed by the upper and lower cores, which are supplied by one or more nozzles, respectively, as a product molding frame.

Such an injection molding machine is configured to open and close a gate or an outlet by an elevating operation of a valve pin. When a relatively large number of molds are formed at a time according to the quantity of a molded product, a manifold type that supplies resin through the manifold is used , And a single type is used when producing a single product.

1 is a cross-sectional view schematically showing a hot runner valve apparatus for an injection molding machine for elevating and lowering a valve pin by using a high-pressure air as an operating pressure according to the prior art.

As shown in the figure, the valve apparatus of the injection molding machine for the multi-cavity mold of the prior art comprises a driving unit 100 and a valve unit 200, and high pressure air is used as a driving source for the elevating operation of the valve pin 210. That is, the driving unit 100 includes a plurality of air channels 110 and 120, which are channels for supplying and discharging high-pressure air from the outside, and a plurality of air channels 110 and 120, And the piston 140 in the cylinder 130 moves up and down by the inflowing high-pressure air. At this time, a valve pin 210 is connected to a lower end of the piston 130 to be interlocked. The valve pin 210 is structured to selectively open or close a gate or an outlet forming the tip of the nozzle 220 by moving up and down in conjunction with the piston 130.

Meanwhile, the valve device 200 includes a nozzle 220 in which a heater is wound to form a body to prevent solidification of the resin. Inside the nozzle 220, a valve pin 210 extends in a vertical direction So as to be raised and lowered. The resin channel 230 is formed around the valve pin 210 with a predetermined clearance between the outlet of the nozzle 220 and the resin channel 230 of the manifold 300, (Not shown).

When the operating pressure of the high pressure is selectively supplied through the air channels 110 and 120, the piston 140 is lifted or lowered, and at the same time, the valve pin 210 is interlocked So that the lifting operation is performed integrally. Accordingly, as the piston 140 is lifted and lowered, the outlet of the nozzle is opened or blocked. As a result, the resin supplied through the manifold 300 is supplied into or blocked from the mold through the outlet.

In brief, a valve gate (outlet) device for an injection molding machine, which operates the air pressure according to the prior art, supplies high-pressure air selectively into the cylinder 130 through the corresponding air channels 110 and 120 to lift the piston 140 And the valve pin 210 opens and closes the outlet (gate) of the nozzle in conjunction with the piston 140 at this time.

However, since the valve device according to the related art constructed as described above uses high-pressure air as an operating source for lifting and lowering the valve pin, it is necessary to employ a hermetic structure for preventing air leakage, (Compressors) are required, so that the structure becomes complicated due to the increase in volume, so that the installation space is limited, and maintenance and management are extremely poor.

In order to solve such a problem, the applicant of the present invention has proposed a pinless type hot runner valve device capable of opening and closing the gate of the nozzle by using the flow operation pressure of the resin supplied from the injection molding machine through Korean Patent No. 10-1154081 .

However, the hot runner for injection molding machines according to the related art has a problem in that it is difficult to uniformly maintain the injection pressure of each nozzle due to the structure in which a multi-nozzle, that is, a plurality of nozzles are mounted on a manifold.

That is, in the manifold, two or more branching resin flow paths for distributing and supplying the resin equally to a plurality of nozzles are formed. These resin flow paths are processed using a tool, There is a drawback that dimensional dispersion occurs due to errors. Likewise, the nozzle coupled to the manifold also required high dimensional accuracy, but machining was difficult, resulting in dimensional dispersion in processing errors.

As described above, the dispersion of the resin flow path of the manifold or the resin of each nozzle results in a failure to uniformly maintain the resin amount (emission amount) passing through various nozzles, Causing a problem of not being formed.

In order to solve such a problem, there is a injection method by controlling the viscosity of the resin passing through the nozzle at different temperatures. However, there is a problem that the quality of the molded article is not uniform and the defect occurrence rate is high.

Therefore, it is necessary to reprocess the various resin flow channels formed on the manifold and the various nozzles provided in the manifold to have the same diameter as each other. Such a machining operation, as described above, There was a time and an extra cost.

In order to solve the above problems, the present applicant has proposed an improved injection molding machine having an injection pressure regulating device through Korean Utility Model Registration No. 0380403 (Aug. 26, 2005).

Referring to FIG. 2, the injection pressure regulating device of the present invention includes a manifold 100 and a manifold 100. The injection pressure regulating device includes a manifold 100, The injection molding machine includes a plurality of nozzles (200) provided with a valve pin (250) for opening and closing a gate through a lifting operation and a resin pressure regulating means, wherein the resin pressure regulating means comprises a resin flow passage A support 500 is provided on the outer periphery of the upper portion of the pressure regulating fin 400 to support the pressure regulating fin 400 and the pressure regulating fin 400 And an adjusting rotating body 600 screwed into the upper end of the rotating body 600.

In the injection molding machine having the injection pressure regulating device constructed as described above, when the regulating rotation body 600 is rotated by a predetermined angle in one direction or the reverse direction, the screw-meshed pressure regulating fin 400 moves upward or downward, So that the amount of resin finally passing through the gate is controlled.

However, since the injection molding machine having the above-described structure is a lifting structure in which the pressure regulating fins 400 are moved vertically and horizontally, it is necessary to secure a free space according to the height of the pressure regulating fins 400, There is a disadvantage that it is difficult to apply it.

Since the pressure regulating fins 400 have a positional displacement in the vertical direction, the frictional surface between the pressure regulating fins 400 and the bushing b provided for sealing the outer periphery of the pressure regulating fins 400 increases, . Therefore, the customer's dissatisfaction with the increase of the maintenance cost due to the frequent replacement of the bushing (b) and the lowering of the reliability of the device is increased, and the injection molding machine must be inactivated inevitably for replacing the bushing (b) There was a problem causing deterioration.

In order to solve such a problem, the present applicant has proposed an injection molding machine having an improved injection pressure regulating device through Korean Patent Registration No. 10-0711985. The injection molding machine provided with the injection pressure regulating device proposed by the applicant of the present invention, In which a resin passage is precisely controlled by a resin manifold, a manifold for forming a branched resin channel for injecting a resin material into a mold and a resin channel coupled to one side of the manifold and connected to the resin channel Wherein the resin channel is rotatably installed at one of the resin channels of the manifold and the nozzle so as to variably control the amount of resin passing therethrough, And the other end is exposed to the outside of the manifold, A flow rate adjusting rotation pin formed on the shaft; A support for rotatably supporting the outer circumference of the other end of the flow rate adjusting rotation pin, which is fixed to one side of the manifold where the other end of the flow rate adjustment rotation pin is located; And an adjusting post which is meshed with the outer circumference of the upper portion of the flow adjusting pivot pin and which adjusts the opening amount of the pipeline by rotating the flow adjusting pivot pin in response to the operation force of the operator and rotating the flow adjusting pivot pin. An injection molding machine having a pressure regulating device is disclosed.

However, the injection pressure regulating apparatus proposed by the present applicant also has a complicated structure and is practically difficult to apply to a hot runner for an injection molding machine, and the space of the hot runner is narrow, which makes it difficult for a worker to adjust using an adjusting post .

Japanese Patent Application Laid-Open No. 10-0711985, page 2, claims 1, 2

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a simple structure for a manifold, an open nozzle type or a pinless type nozzle, The flow rate of the hot runner resin can be precisely controlled.

In order to achieve the above object, a hot runner resin amount adjusting device according to a preferred embodiment of the present invention is provided with a hot runner provided with a resin flow path for injecting a molten resin into a cavity of a mold, A hot runner resin amount adjusting apparatus, comprising: a resin flow amount regulating device for regulating a resin amount of a hot runner, wherein one end is disposed across the resin flow path and the other end is exposed to the outside but rotatably installed, And a control plate portion for regulating the size of the resin flow path during rotation so as to control the size of the resin flow path, and a control shaft connected to the other end of the control shaft exposed to the outside, A drive motor that rotates and a controller that is electrically connected to the drive motor to apply a control signal, And that comprises a season as its features.

According to a preferred aspect of the present invention, the driving motor is one of a servomotor, a stepping motor, or an encoder motor which detects the rotational speed and applies the detected rotational speed to the controller.

A hot runner resin amount adjusting device according to another preferred embodiment of the present invention includes a hot runner resin amount adjusting device installed in a hot runner provided with a resin flow path for injecting a molten resin into a cavity of a mold, , Wherein one end is disposed across the resin flow path and the other end is provided so as to be rotatable while being exposed to the outside so that the portion located on the resin flow path has a plate shape having a thickness by removing both side surfaces, And a control shaft connected to the other end of the adjusting rotation body exposed to the outside to transmit a rotational force and having a flexible shaft which is rotated in the forward and reverse directions by receiving an operation force from an operator, And an acupressure regulator.

According to a preferred aspect of the present invention, the regulating rotation body includes: a plate-shaped regulating plate portion located on the resin flow path; A head bushing having a cylindrical shape extending from one side of the throttle plate to form an end portion and being rotatably slidably inserted into one side of a component constituting the hot runner; A middle bushing having a cylindrical shape extending to the other side opposite to the head bushing around the throttle plate and being rotatably slidably fitted on one side of a component constituting the hot runner; A plurality of recesses formed on the outer surface of the lower bushing and extending in the middle bushing, And a connection end extending from the entire recessed portion to be exposed to the outside.

In another preferred aspect of the present invention, the regulating rotation body is provided so that the regulating plate portion is located in the resin flow path of the nozzle or the resin flow path of the manifold of the nozzle constituting the hot runner.

The hot runner resin amount adjusting apparatus according to the present invention can be easily applied to manifolds and nozzles because of its simple structure. Particularly, the worker can control the flow rate of resin through the driving source or flexible shaft adjusting unit without being restricted by a narrow space It is possible to compensate for the machining error of each nozzle in the hot runner applying the multi-type nozzle or the uneven resin discharge amount due to the machining error of the branched resin flow path of the manifold. As a result, And it is possible to compensate the machining error of the manifold and the nozzle, thereby providing an advantage that the mass productivity can be improved.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

1 and 2 are sectional views showing a hot runner valve apparatus for an injection molding machine according to the prior art,
3 is a perspective view showing a hot runner resin amount adjusting apparatus according to the present invention,
4 is a cross-sectional perspective view showing a cross-sectional configuration of a hot runner resin amount adjusting apparatus according to the present invention,
FIGS. 5 to 7 are cross-sectional views for explaining the amount of opening according to the operation of the hot runner resin amount adjusting apparatus according to the present invention,
FIGS. 8 and 9 are cross-sectional views schematically showing the configuration of a manifold and a nozzle to which a hot runner resin amount adjusting device according to an embodiment of the present invention is applied;
10 is an enlarged perspective view of a main part of a nozzle to which the hot runner resin amount adjusting device of the present invention is applied;
11 and 12 are sectional views showing the configuration of a manifold and a nozzle to which a hot runner resin amount adjusting device according to another embodiment of the present invention is applied,

Hereinafter, a hot runner resin amount adjusting apparatus according to the present invention will be described with reference to the accompanying drawings. First, it should be noted that the same components or parts among the drawings are denoted by the same reference numerals as possible. 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. 3 is a perspective view showing a hot runner resin amount adjusting apparatus according to the present invention, FIG. 4 is a sectional perspective view showing a sectional configuration of a hot runner resin amount adjusting apparatus according to the present invention, and FIGS. Sectional view for explaining the amount of opening according to the operation of the hot runner resin amount adjusting device.

The hot runner resin amount adjusting device 1 according to the present invention is applied to a hot runner including a manifold 10 and a plurality of nozzles 20 connected to the manifold 10. As shown in FIG.

The manifold 10 is a member made of a metal material having a substantially plate-like shape. Inside the manifold 10, a resin flow path 11 having a plurality of branching shapes in which molten resin moves is formed. 10, one or more mounting holes connected to the resin flow path 11 to couple the nozzles 20 are vertically formed. Although not shown, the manifold 10 has a structure in which a heater (not shown) serving as a heating element for preventing the resin moving along the resin flow path 11 from being solidified is provided through the forging operation to be.

The manifold 10 constructed as described above may have a structure in which the nozzles 10 are connected to receive the resin through the resin flow path 11 as a reference, Is omitted.

The nozzle 10 is a member of a length having a tubular shape and is injected into a cavity serving as a molding space of the mold m by receiving the resin supplied from the manifold 10 into the center of the nozzle. The nozzle 10 suggests that a pinless type is used. For example, a single-type nozzle, which is a type in which a valve pin lifted by a driving source is not provided at the center of the nozzle 10, or a known pinless type nozzle in which a flow path of a nozzle is controlled using the pressure of a resin extruded in an injection molding machine It is suggested that the nozzle be used.

The nozzle 10 having such a structure is provided on the lower side of the manifold 10 and receives the resin from the manifold 10 and injects it into the cavity of the mold m.

The resin pressure regulator 30 is provided with one end on the resin flow path 11 of the manifold 10 or the resin flow path 21 of the nozzle 20 and is rotated to variably adjust the amount of resin passing therethrough Which is provided on each of the resin flow paths 11 and 21 of the manifold 10 or the nozzle 20 constituting the hot runner to control the discharge amount of the resin finally discharged through the nozzle 20, (31) as essential components.

The control rotating body 31 is a member made of a cylindrical material having a predetermined length and is made of a material having a flow path through which resin flows, that is, a manifold 10 And is installed in the nozzle 20.

One end of the regulating rotation body 31 is connected to the resin flow path 11 of the manifold 10 and the resin flow path 21 of the nozzle 20 connected to the resin flow path 11 of the manifold 10. [ And the other end thereof is connected to a drive source or connected to receive a rotational operation force from an operator. That is, the regulating rotation body 31 is provided on one side of the element constituting the hot runner so as to be rotatable while being arranged so as to be perpendicular to the passage of the resin, that is, the resin flow path, And the width of the resin flow path is widened or narrowed according to the degree of rotation by reducing the thickness.

The regulating rotation body 31 according to the present invention includes a plate-like regulating plate portion 31b which is positioned on the resin flow path which is a path through which the resin is moved to adjust the hole size of the resin flow path, Shaped head bushing 31a extending from a side of the head bushing 31a and extending from one side of the head bushing 31a and being rotatably slidably fitted to one side of a component of the hot runner in which the resin flow path is formed, A middle bushing 31c having a cylindrical shape extending to the other side of the regulating plate portion 31b and being rotatably slidably inserted into the other side of the component of the hot runner in which the resin flow path is formed and a middle bushing 31c extending from the middle bushing 31c (31d) having an uneven surface formed on one side of a component of the hot runner and restrained and rotated by the uneven structure, And a connecting end portion 31e.

The regulating plate 31b is a part connecting the cylindrical head bushing 31a and the middle bushing 31c and is formed to have a plate shape having a thickness by removing both side surfaces of the cylindrical shape. The diameter of the resin flow path can be varied. That is, the amount of the resin passing through is maximized in the state where the regulating plate portion 31b provided on the resin flow path is rotated vertically as shown in Fig. 7. When the regulating plate portion 31b is rotated by a predetermined angle as shown in Fig. 6, The passing amount of the resin is reduced, and when the regulating plate 31b is rotated in a horizontal state as shown in FIG. 5, the amount of resin passing is minimized.

As shown in FIG. 5, the regulating plate 31b of the present invention is formed such that when it rotates in a horizontal state, the resin flow path is not completely shielded, but a hole is formed so that the resin can pass through the resin flow path on both sides. This is because it is only necessary to compensate for the machining error of the manifold and the nozzles constituting the hot runner, and it is not necessary to completely shield the resin flow path unnecessarily.

In addition, although the throttle plate 31b of the present invention is provided in the form of a plate, it can be variously modified as long as it has a structural characteristic capable of varying the diameter of the resin passage along with its rotation will be.

The control rotating body 31 configured as described above may be configured to be connected to a driving source and automatically rotate or to be manually rotated by receiving operation force from a worker.

8 is a cross-sectional view schematically showing a hot runner including a manifold 10 to which a resin pressure regulator 30 showing a configuration in which the regulating rotation body 31 is rotated by a drive source.

Referring to the drawings, a resin flow path 11 is formed in a horizontal direction inside a manifold 10, which is one of the constituent elements of a hot runner. In the direction perpendicular to the resin flow path 11, And a regulating plate portion 31b of the regulating rotation body 31 is disposed on the resin flow path 11. As shown in Fig. The control bushing 31 has a head bushing 31a at one end thereof and a middle bushing 31c formed at the opposite side of the control plate 31b in a rotatable manner in the manifold 10 And the entire thrust retracting portion 31d extending to one side of the middle bushing 31c is assembled to the concavo-convex groove portion a formed at one side of the inside of the manifold 10 and prevented from flowing in the longitudinal direction Respectively. A connection end portion 31e extending to one side of the urge backward portion 31d is exposed to the outside of the manifold 10. A driving motor 35 is connected to the connection end portion 31e, The drive motor 35 is configured to include a keypad including a plurality of switches or buttons for receiving an input operation from a user and a controller 37 including a display unit for outputting an operation state as a screen or sound to be electrically connected to be.

With this configuration, when the user operates the keypad provided on the controller 37 to adjust the amount of resin passing through the resin flow path 11 of the manifold 10, the controller 37, And the drive motor 35 adjusts the resin passage amount with respect to the resin passage 11 by rotating the connection end portion 31e interlockingly.

The drive motor 35 may be an encoder motor, a servo motor, or a stepping motor having an encoder capable of interrupting the rotation speed of the motor. In addition, the drive motor 35 may receive a control signal from the controller 37, Any adjustable drive source would be possible without limit.

FIG. 9 is a schematic view of a hot runner including a nozzle 20 to which a resin pressure regulator 30 showing a configuration in which the regulating rotation body 31 is rotated by a drive source, and FIG. 10 is a cross- 8, except that the regulating rotation body 31 is provided on the nozzle 20, not on the manifold 10. [0064] As shown in Fig.

Referring to the drawings, a regulating rotation body 31 is rotatably installed in a horizontal direction in a resin flow path 21 formed perpendicularly to the inner center of the nozzle 20, and the regulating plate portion 31 of the regulating rotation body 31 31b are disposed on the resin flow path 21. As shown in FIG. The adjustment bush 31c formed on the opposite side of the adjustment bush 31b with the head bushing 31a as one end of the adjustment rotation body 31 is rotatably slidably inserted into the nozzle 20 And the front portion 31d of the recessed portion 31d extending from one side of the middle bushing 31c is assembled to the concavo-convex groove portion a formed on the inner side of the nozzle 20 so as to be prevented from flowing in the longitudinal direction do. A connection end portion 31e extending to one side of the urge backward portion 31d is exposed to the outside of the nozzle 20 and a driving motor 35 is connected to the connection end portion 31e, And the drive motor 35 is configured such that the controller 37 including a keypad including a plurality of switches or buttons for receiving an input operation from a user and a display unit for outputting an operation state to a screen or a buzzer or sound is electrically connected .

When the user operates the keypad provided on the controller 37 to adjust the amount of resin passing through the resin flow path 21 of the nozzle 20, the controller 37, which has received the operation signal, A control signal is outputted to the driving motor 35 and the driving motor 35 adjusts the resin passage amount with respect to the resin passage 21 by rotating the connecting end portion 31e interlockingly.

The drive motor 35 may be an encoder motor, a servo motor, or a stepping motor having an encoder capable of interrupting the rotation speed of the motor. In addition, the drive motor 35 may receive a control signal from the controller 37, Any adjustable drive source would be possible without limit.

11 is a cross-sectional view schematically showing a hot runner including a manifold 10 to which a resin pressure regulator 30, which is configured to manually rotate the regulating rotation body 31, is applied.

Referring to the drawings, a resin flow path 11 is formed in a horizontal direction inside a manifold 10, which is one of the constituent elements of a hot runner. In the direction perpendicular to the resin flow path 11, And a regulating plate portion 31b of the regulating rotation body 31 is disposed on the resin flow path 11. As shown in Fig.

The control bushing 31 has a head bushing 31a at one end thereof and a middle bushing 31c formed at the opposite side of the control plate 31b in a rotatable manner in the manifold 10 And the entire thrust retracting portion 31d extending to one side of the middle bushing 31c is assembled to the concavo-convex groove portion a formed at one side of the inside of the manifold 10 and prevented from flowing in the longitudinal direction Respectively.

 A connection end portion 31e extending to one side of the urge backward portion 31d is exposed to the outside of the manifold 10 and receives a rotation operation force from a worker to be transmitted to the connection end portion 31e The flexible shaft 34 is connected.

Reference numeral 34a designates a dial handle provided at one end of the flexible shaft 34 to receive a rotary operation force from an operator. In addition to the dial handle proposed in the present invention, a component that facilitates rotation of the flexible shaft It is possible to be replaced.

Although it is possible to directly connect the flexible shaft 34 to the connection end portion 31e in this embodiment, it is preferable that the rotation ratio of the flexible shaft 34 acting on the flexible shaft 34, 31e and the flexible shaft 34 so as to transmit the reduced speed to the reduction gears 31a, 31e.

With this configuration, when the operator rotates the flexible shaft 34 at a predetermined angle, the rotation angle transmitted to the flexible shaft 34 is transmitted to the reduction gear unit 33 and decelerated and transmitted at a predetermined ratio, The fine adjustment of the rotating body 31 becomes possible.

12 is a cross-sectional view schematically showing a hot runner including a manifold 10 to which a resin pressure regulator 30, which is configured to manually rotate the regulating rotation body 31, is applied. In this embodiment, 11, except that the regulating rotation body 31 is provided in the nozzle 20, not in the manifold 10. In this case,

Referring to the drawings, a resin flow path 21 is formed in a vertical direction inside a nozzle 20, which is one of constituent elements of a hot runner, and a regulating rotation body 31 And a regulating plate portion 31b of the regulating rotation body 31 is disposed on the resin flow path 21. [

The adjustment bush 31c formed on the opposite side of the adjustment bush 31b with the head bushing 31a as one end of the adjustment rotation body 31 is rotatably slidably inserted into the nozzle 20 And the front portion 31d of the recessed portion 31d extending from one side of the middle bushing 31c is assembled to the concavo-convex groove portion a formed on the inner side of the nozzle 20 so as to be prevented from flowing in the longitudinal direction do.

 A connection end portion 31e extending to one side of the urge backward portion 31d is exposed to the outside of the nozzle 20 and a rotary operation force is inputted from the operator to the connection end portion 31e, The sextuple 34 is connected.

Although it is possible to directly connect the flexible shaft 34 to the connection end portion 31e in this embodiment, it is preferable that the rotation ratio of the flexible shaft 34 acting on the flexible shaft 34, 31e and the flexible shaft 34 so as to transmit the reduced speed to the reduction gears 31a, 31e. Here, the reduction gear unit 33 may be a reduction gear unit formed of a plurality of gear meshing gears, and a detailed description thereof will be omitted.

With this configuration, when the operator rotates the flexible shaft 34 at a predetermined angle, the rotation angle transmitted to the flexible shaft 34 is transmitted to the reduction gear unit 33 and decelerated and transmitted at a predetermined ratio, The fine adjustment of the rotating body 31 becomes possible.

In the multi-type injection molding machine in which a plurality of nozzles are mounted, when the injection amount of each nozzle is not uniform, the hot runner resin amount adjusting device configured as described above has a resin pressure regulator 30 mounted on the nozzle As a result, the regulating rotation body 31 provided on the resin flow path is rotated forward or backward so that the regulating plate portion 31b constituting the regulating rotation body 31 adjusts the opening amount of the resin flow path 11 The injection amount of the nozzle can be controlled.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention. It is obvious to those who have knowledge. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: manifold 11, 21: resin flow path
20: nozzle 30: resin pressure regulator

Claims (5)

There is provided a hot runner resin amount adjusting apparatus which is provided in a hot runner provided with a resin flow path for injecting a molten resin into a cavity of a mold,
And the other end of the resin flow path is disposed so as to be rotatable. The portion located on the resin flow path has a plate shape with both sides removed to have a thickness, A driving motor connected to the other end of the adjusting rotatable body exposed to the outside to transmit a rotational driving force and performing forward and reverse rotations by being supplied with power from the outside, A controller which is electrically connected to the controller and applies a control signal to the controller;
Wherein the hot runner resin amount adjusting device comprises:
The hot runner resin amount adjusting apparatus according to claim 1, wherein the drive motor is one of a servo motor, a stepping motor, or an encoder motor for detecting the rotation speed and applying the rotation speed to the controller.
There is provided a hot runner resin amount adjusting apparatus which is provided in a hot runner provided with a resin flow path for injecting a molten resin into a cavity of a mold,
And the other end of the resin flow path is disposed so as to be rotatable. The portion located on the resin flow path has a plate shape with both sides removed to have a thickness, A regulating rotary body having a regulating plate for regulating the size thereof and a flexible shaft connected to the other end of the regulating rotary body exposed to the outside and having a flexible shaft for transmitting and rotating operation force from a worker,
Wherein the hot runner resin amount adjusting device comprises:
4. The regulating rotation body according to any one of claims 1 to 3,
A plate-shaped throttle plate positioned on the resin flow path;
A head bushing having a cylindrical shape extending from one side of the throttle plate to form an end portion and being rotatably slidably inserted into one side of a component constituting the hot runner;
A middle bushing having a cylindrical shape extending to the other side opposite to the head bushing around the throttle plate and being rotatably slidably fitted on one side of a component constituting the hot runner;
A plurality of recesses formed on the outer surface of the lower bushing and extending in the middle bushing,
A connection end extending from the entire recessed portion to be exposed to the outside;
Wherein the hot runner resin amount adjusting device comprises:
4. The regulator according to claim 1 or 3,
Wherein the regulating plate portion is disposed in a resin flow path of a nozzle or a resin flow path of a manifold of the hot runner.

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