KR100259133B1 - Weld line removing method - Google Patents

Abstract

PURPOSE: An eliminating method of a weld line is provided to prevent a weld line from being formed on the surface of a product by opening plural valve nozzles with different time intervals through additional hydraulic lines of each valve nozzle. CONSTITUTION: A hydraulic pressure path of a solenoid valve(4) opens a falling line(7) of a valve nozzle(1) when oil is drained out of a hydraulic tank(T) by a pump(P). A valve pin of the valve nozzle falls down, and a gate of the valve nozzle is closed. To inject resin into a cavity of a mold, the solenoid valve is operated and another hydraulic pressure path is changed to a rising line(8). The valve pin of the valve nozzle rises up and the gate is opened at the same time. Thereby, the resin is filled in the cavity and a product is injection-molded. The falling line and the rising line are connected with valve nozzles(1,2,3) from each solenoid valve(4,5,6) respectively. The valve pin of each valve nozzle is operated by different lines, and the gate is opened/closed in different method. Each solenoid valve has an additional timer(15) to be operated with time intervals. Therefore, the resin is injected into the cavity sequentially. The product has no weld line on the surface.

Description

How to remove the seam of large plastic injection molding products

The present invention is to solve the generation of a welding line (Weld Line) on the surface of the product when manufacturing a large-size synthetic resin product by injection molding, in particular to open the gate of a plurality of injection valve nozzles sequentially injected into the mold at high pressure The present invention relates to a method for removing a weld line of a large-scale synthetic resin injection product to prevent the bonding lines generated by conflicting with each other on the surface of the product by allowing the synthetic resins to be infused with each other.

In general, when molding a product as a synthetic resin to manufacture the product by using an injection molding machine, such injection molding machine by the hydraulic pressure generated in the cylinder in which the raw material is injected into the inside of the mold through the runner having the manifold Since the injection is provided between the manifold of the runner and the cavity of the mold, a plurality of injection nozzles are provided according to the size of the product so that the raw material is evenly dispersed and injected into the mold to produce a synthetic resin product. In the case of large products, the gate size of the injection nozzle should be wide for the smooth molding of the product, so that the resin is filled evenly inside the cavity while putting a large amount of raw material into the mold to prevent the resin from solidifying. Can be obtained when molding these large products Rather than using injection nozzles, valve valves have been used to open and close the valve pins by a valve system.

Accordingly, when molding a large product, as shown in FIG. 1, the hydraulic circuit of the valve system is provided. When the oil stored in the hydraulic tank 107 is discharged by the driving of the pump 106, the solenoid valve 102 is used. Opens the hydraulic drop line 103 of the valve nozzle 101 so that the nozzle pin of the valve nozzle 101 is lowered, so that the gate of the valve nozzle 101 is closed and the resin is injected into the mold. The valve 102 operates to change the hydraulic passage 105 to the hydraulic rise line 104, thereby raising the valve pin of the valve nozzle 101 to open the gate, so that the resin is filled in the mold and filling of the resin is performed. Upon completion, the solenoid valve 102 is returned to its original position and the hydraulic drop line 103 is lowered, thereby lowering the valve pin of the valve nozzle 101 to close the gate so that the resin is closed in the mold. It has solidified to allow the product to be taken out.

However, the conventional method as described above operates a plurality of valve nozzles at the same time, so that the resin flowing through each valve nozzle flows in at the same time to reach the intermediate portion of the valve nozzle and the valve nozzle in the cavity of the mold. Contact temperature is lower than the temperature introduced into the first cavity, and is in conflict with each other filling the same space at the same pressure, so the resin flows through each valve nozzle is the same. Since the surface of the product is formed as a joint line and the appearance is not beautiful, it has been post-processed after surface painting after painting the surface of the product to remove such a joint line. There is a problem that the productivity of the product is reduced by the process and the factor of price increase occurs. Will.

The present invention is a method created in order to solve the problem that the joint line is generated on the surface of the product when the injection molding of such a large product, a hydraulic line for operating a plurality of valve nozzles provided in the manifold, each valve nozzle By forming a separate line in each valve nozzle so that each valve nozzle opens with a different time difference, the resin introduced later by the spreading force of the resin first introduced into the cavity, together with the resin first introduced into the cavity of the mold The purpose of the present invention is to provide a method of removing a seam of a large-size plastic injection product to prevent the seam from being formed on the surface of the product by spreading into the inside.

1 is a valve pressure circuit diagram of a conventional injection molding machine.

Figure 2 is a valve pressure circuit diagram according to the present invention.

3 is a cross-sectional view of a first operating state according to the present invention;

Figure 4 is a cross-sectional view of a second operating state according to the present invention.

<Description of the code | symbol about the principal part of drawing>

(1) (2) (3) Valve nozzles (4) (5) (6) Solenoid valves (7) Hydraulic drop line

(8) Hydraulic Lifting Line (9) Valve Pin (10) Kate (11) Cavity

(12) Resin (13a) (13b) Hydraulic passage (16) Timer (P) Pump

Hereinafter, with reference to Figures 2 to 4 attached to the removal method and operation of the present invention will be described in detail.

2 is a view showing a hydraulic circuit diagram according to the present invention, Figure 3 is a cross-sectional view showing a first operating state according to the present invention, Figure 4 is a cross-sectional view showing a second operating state according to the present invention. to be.

Therefore, with reference to the accompanying drawings, a method of removing the bond line formed on the surface of the synthetic resin product according to the present invention,

When the oil stored in the hydraulic tank T is discharged by the driving of the pump P, the hydraulic passage 13a of the solenoid valve 4 opens the hydraulic lowering line 7 of the valve nozzle 1 so that the valve nozzle 1 ) So that the valve pin (9) of the valve (9) is in the lowered state to close the gate (10) of the valve nozzle (1), and when the resin (12) is injected into the cavity (11) of the mold, the solenoid valve (4) Is operated to change the hydraulic passage 13b to the hydraulic lift line 8, thereby raising the valve pin 9 of the valve nozzle 1 to open the gate 10, so that the resin is in the cavity 11 In the method of injection molding the product by filling the resin 12 into the cavity 11 by simultaneously opening the gate 10 of each valve nozzle (1) to be filled,

Solenoid valves (4) (5) and (6), which transfer hydraulic pressure from the pump (P) to the plurality of valve nozzles (1), (2), (3), each valve nozzle (1) (2) (3). The hydraulic lowering line (7) and the hydraulic lifting line (8) which are provided in the same number and connect the valve nozzles (1) (2) (3) from the respective solenoid valves (4) (5) (6). The valve pins 9 of the respective valve nozzles 1, 2 and 3 are operated by different lines so that the opening and closing of the gate 10 can be made different. The solenoid valves 4, 5, and 6 of the solenoid valves 4, 5, and 6 are provided with a timer 16 separately so that the resin 12 acts on the cavity 11 at a time difference. In order to be introduced into the sequential order.

Reference numeral 14 is a recovery line for recovering the hydraulic pressure acting on the valve nozzles (1) (2) (3) to the tank (T), 15 is a solenoid valve provided in the recovery line (14).

Referring to the working state according to the present invention by the hydraulic circuit diagram as described above as follows.

When the resin 12 does not flow into the cavity 11 of the mold, the pump P of the hydraulic circuit should be closed because the gate 10 of each valve nozzle 1, 2, 3 should be closed. The oil in the (T) is ejected to generate hydraulic pressure, which is supplied to each valve nozzle (1) (2) (3) through the hydraulic passage (13a) of each solenoid valve (4) (5) (6). The gate 10 is closed by allowing the valve pins 9 of the respective valve nozzles 1, 2, and 3 to be lowered while allowing them to flow into the hydraulic lowering lines 7 connected to each other.

Then, when the resin 12 is input to the valve nozzles 1, 2, and 3 by a cylinder device (not shown), the solenoid valves 4, 5, and 6 are operated to hydraulically increase the hydraulic passage 13b. When the hydraulic pressure is generated in each of the valve nozzles 1, 2, and 3 in communication with the line 8, the valve pin 9 of the valve nozzle rises to open the gate 10, thereby opening the resin 12. As the product is molded by filling the cavity 11, the hydraulic pressure acting on each valve nozzle 1, 2, 3 is recovered into the tank T through the recovery line 14. Bar, the solenoid valve 15 provided in the recovery line 14 is operated by the hydraulic lowering line 7 and the rising line 8 is recovered.

At this time, each of the solenoid valve (4) (5) (6) for changing the hydraulic pressure generated in the pump (P) to the descending line (7) and the rising line (8) is provided with a timer (16) individually The solenoid valves 4, 5, and 6 can operate differently according to the time set in 16, so that the gate 10 of the first valve nozzle 1 is opened when forming a large product. After setting the set time of the timer 16 provided in the first solenoid valve 4, setting the timer 16 provided in the second solenoid valve 5 so that the second valve nozzle 2 is opened with a time difference. A timer is provided in the third solenoid valve 6 to set a time and to open the third valve nozzle 3 after the gate 10 of the first and second valve nozzles 1 and 2 is opened. 16 is set with a time difference from the set time of the timer 16 provided in the second solenoid valve 5 so that each valve nozzle 1, 2, 3 is mutually different. While having the other difference is to be opened.

In addition, when the resin 12 is filled in the cavity 11, opening and closing of the gate 10 of the valve nozzles 1, 2, and 3 opens the first valve nozzle 1, and thereafter, the second valve nozzle 1 opens. When the gate 10 of the valve nozzle 2 is opened, the gate 10 of the first valve nozzle 1 is closed, and when the gate 10 of the third valve nozzle 3 is opened, the gate of the second valve nozzle 3 is opened. The set time of the timer 16 provided in the solenoid valves 4, 5, 6 may be adjusted so that 10 is closed.

Therefore, when the gate 10 of each valve nozzle (1) (2) (3) is opened with different parallax as described above, as shown in Figures 3 and 4 attached to the cavity 11 When the state of the resin 12 introduced is generated, the first and second operating states according to the open state of the first valve nozzle 1 and the second valve nozzle 2 will be described as follows. .

First, the hydraulic passage 13a of the first solenoid valve 4 which raises and lowers the valve pin 9 to the first valve nozzle 1 is moved to the hydraulic rising line 8 by the set time of the timer 16. When the valve pin 9 of the first valve nozzle 1 is raised, the resin 12 is filled into the cavity 11 through the first valve nozzle 1 as shown in FIG. 3. When the resin 12 reaches one side of the second valve nozzle 2 which is an empty space while filling one side of the cavity 11, the timer 16 of the second solenoid valve 5 is operated. As a result, the hydraulic passage 13a of the second solenoid valve is changed to the hydraulic lift line 8 to raise the valve pin 9 of the second valve nozzle 2 so that the resin 12 moves the second valve nozzle 2. When the filling is filled into the cavity 11 through the first valve nozzle 1, the resin 12 flows into the cavity 11 and flows out of the cavity 11 to the empty space of the cavity 11. Is spread out will be to fill the cavity 11, as shown in FIG.

At this time, the pressures of the resin flowing from the first valve nozzle 1 and the second valve nozzle 2 are the same, but the resin 12 first introduced through the first valve nozzle 1 is the cavity 11. The second valve nozzle 2 is opened while the resin 12 is introduced into the cavity 11 when the space close to the second valve nozzle 2 is reached while the one side space is filled. When the resin 12 is introduced first, a conflict occurs, but the resin 12 introduced through the first valve nozzle 1 fills a predetermined space inside the cavity 11, and then the resin introduced ( 12 has a force that preferentially spreads into the empty space, so that the resin 12 introduced later through the second valve nozzle 2 is swept away by the resin introduced through the first valve nozzle 1 and the cavity 11. ) It prevents the seam from forming due to the conflict of resin on the surface of the product by spreading into the empty space inside. You will be able to.

Thereafter, when the filling of the resin 12 in the cavity 11 is completed, each solenoid valve 4, 5, 6 is operated so that the hydraulic passage 13a communicates with the hydraulic lowering line 7. When (16) is set, the gate 10 of each valve nozzle (1) (2) (3) is closed simultaneously, and the product should just be taken out from a metal mold | die.

In addition, the hydraulic generating means, which is a means for raising and lowering the valve pin 9 of the valve nozzles (1) (2) and (3) of the present invention, may be replaced with the pneumatic generating means, and the tank of the hydraulic circuit ( T) and the pump (P) can be carried out by changing the compressor to the pneumatic generating means.

In another embodiment of the present invention, a control device for controlling the respective solenoid valves 4, 5, 6 without the operation of the respective solenoid valves 4, 5, 6 as the timer 16 is provided. Since the solenoid valve (4) (5) (6) is operated through the gate 10 of each valve nozzle (1) (2) (3) may be opened individually.

As described above, the present invention is provided with a plurality of solenoid valves having a timer so that the valve pin of each valve nozzle is raised to open the gate with a time difference between the valve pins, and then the respective solenoid valves are connected to the respective valve nozzles. Since the hydraulic lifting and lowering lines are provided separately, the resin is introduced into the cavity sequentially, so that the resin introduced later spreads into the empty space inside the cavity together with the resin introduced first to fill the cavity. It is a method of preventing the formation of a seam due to a conflict in the cavity introduced into time.

Claims (3)

When the oil stored in the hydraulic tank T is discharged by the driving of the pump P, the hydraulic passage 13a of the solenoid valve 4 opens the hydraulic lowering line 7 of the valve nozzle 1 so that the valve nozzle 1 ) So that the valve pin (9) of the valve (9) is in the lowered state to close the gate (10) of the valve nozzle (1), and when the resin (12) is injected into the cavity (11) of the mold, the solenoid valve (4) Is operated to change the hydraulic passage 13b to the hydraulic lift line 8, thereby raising the valve pin 9 of the valve nozzle 1 to open the gate 10, so that the resin is in the cavity 11 In the method of injection molding the product by filling the resin 12 into the cavity 11 by simultaneously opening the gate 10 of each valve nozzle (1) to be filled, Solenoid valves (4) (5) and (6), which transfer hydraulic pressure from the pump (P) to the plurality of valve nozzles (1), (2), (3), each valve nozzle (1) (2) (3). The hydraulic lowering line (7) and the hydraulic lifting line (8) which are provided in the same number and connect the valve nozzles (1) (2) (3) from the respective solenoid valves (4) (5) (6). By connecting the valve pins 9 of the respective valve nozzles 1, 2, and 3 to be operated by different lines so that the opening and closing of the gate 10 can be made different. A method of removing the seam of a large-scale synthetic resin injection product, characterized in that the) to be sequentially introduced into the cavity (11). The method of claim 1, Each solenoid valve 4, 5, 6 is provided with a timer 16 individually to operate each solenoid valve 4, 5, 6, so that each valve nozzle 1, 2 3) The method of removing the seam of a large plastic injection molded product, characterized in that the gate 10 of (3) is opened individually. The method of claim 1, The solenoid valves 4, 5, 6 are operated through a control device that controls each solenoid valve 4, 5, 6 so that the gates of the respective valve nozzles 1, 2, 3 10) A method of removing the seam of a large plastic injection molded product characterized in that the open individually.