KR20190090426A - Manufacturing method of wind board using automated process - Google Patents

Abstract

The present invention relates to a manufacturing method of a windshield plate using an automated process and, more specifically, to a manufacturing method of a windshield plate using an improved automated process, which produces the windshield plate through the automated process to reduce the labor cost by the production, wherein the windshield plate is installed on a window rail of a window to prevent wind let into the gap between a window frame and a window pane, and secures productivity by improving competitiveness.

Description

Manufacturing method of wind board using automated process {Manufacturing method of wind board using automated process}

The present invention relates to a method for manufacturing a wind finger plate using an automated process, and more particularly, to manufacture the wind finger plate through an automated process, which is installed in a window rail of a window and prevents wind from leaking into the gap between the window frame and the window. The present invention relates to a method for manufacturing a wind finger plate using an improved automated process so as to reduce labor costs and improve productivity.

In general, the window is configured to slide along the rail, and the window is mounted on the rail of the window frame frame so that the bottom of the window there is always a gap.

Therefore, in order to prevent the problem of rain or wind flowing into the lower gap of the window, when constructing a window of a building in general, the prior art window for windshields 1 having the structure as shown in FIG. Installed on the surface to prevent the outside air flowing into the lower gap of the window.

As shown in FIG. 1, the wind finger plate 1 consists of a base 10 of a hard resin and a plurality of brushes 14, 15, 16, and 17 of a soft resin formed integrally with the base 10.

At this time, the base 10 is a fixed piece 12 of the sawtooth-shaped steel material protrudes on both sides facing the rectangle with a different length and width.

The wind vane 1 of this structure is fixed to the rail bottom surface of the window frame frame, and when the base 10 is inserted in a bent state by applying force to the base 10, it is unfolded in a bent state by the restoring force of the base 10 and the fixing piece 12 is The windage plate 1 is fixed by pressing the side walls of both rails.

By the way, the wind finger plate (1) is manufactured by hand one by one or by automating a part of the assembly process, but all the main work is done by manual work, the production efficiency is lowered, as well as the manufacturing cost according to labor costs, According to the proficiency, the rate of assembly failure is high and the limit of competitiveness is reached.

Republic of Korea Patent No. 10-1484009 (2015.01.13.) 'Wind plate with auxiliary wind blower member'

The present invention was created in view of the above-mentioned problems in the prior art, and is created to solve this problem, and is installed on a window rail of a window to manufacture a windshield through an automated process to prevent wind from leaking into a gap between a window frame and a window sill. The main purpose is to provide a manufacturing method of the wind finger plate using the improved automated process to reduce the labor costs according to the manufacturing, to improve the productivity by securing the productivity.

The present invention is a means for achieving the above object, in the manufacturing method for manufacturing a wind finger plate to insert the fixing piece 20 when molding the base 10 by molding a synthetic resin; A fixing piece 20 processing step of punching at least two pin holes 22 in the center of the plate surface of the fixing piece 20; A fixing piece 20 position fixing step in which the pin hole 22 of the processed fixing piece 20 is inserted into the fixing pin 112 on the jig block 110 seated on the turntable 100 and stacked and stacked; When the fixing piece 20 is fixed on the jig block 110, an injection machine for insert molding the fixing piece 20 by suction-taking one by one the fixing piece 20 using the suction jig 200 fixed to the robot arm ( A mold inserting step of the fixing piece 20 which is automatically injected into the mold 300; An injection molding step of molding the fixing piece 20 to be inserted into the base 10 by supplying resin to the injection machine 300 into which the fixing piece 20 is to be inserted; When the injection molding is completed, taking out the product out of the mold by using the take-out rod and take out and inspecting the product to read whether the good and defective goods; provides a method for manufacturing a wind finger plate using an automated process comprising a.

At this time, the jig block 110 is provided on the turntable 100 at a predetermined angle in the circumferential direction; The turntable (100) is designed to be driven by an index (INDEX) 120; The index 120 is installed on the machining table 130; The jig block 110 is also characterized in that at least two or more fixing pins 112 to which the pin hole 22 is fitted.

According to the present invention, the windshield is installed on the window rail of the window and prevents the wind from leaking into the gap between the window frame and the window pane through an automated process to reduce labor costs due to manufacturing, improve productivity and secure competitiveness Can be obtained.

1 is an exemplary view of a wind finger plate according to the prior art.
2 is a flow chart showing a manufacturing method according to the present invention.
3 is an exemplary view of a wind finger plate manufactured according to the present invention.
Figure 4 is an exemplary view showing an installation example of a turntable and a jig block including an index for explaining the manufacturing method according to the present invention.
5 is a photograph showing an example of the actual product of FIG. 4.
6 is an exemplary process diagram illustrating a manufacturing method according to the present invention.

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

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

As shown in Figures 2 to 6, the manufacturing method of the wind finger plate using the automated process according to the present invention is to insert the sawtooth fixing piece 20 in the base 10 having a plurality of brushes made of a soft resin It is the main technical point.

To this end, the present invention performs the fixing piece 20 processing step first.

The fixing piece 20 processing step is to process the fixing piece 20 in a form that can be automatically processed through an automated process, at least two in the center of the plate surface of the fixing piece 20 protrudes the teeth 24 The above process includes punching the pin hole 22.

That is, the process of punching after cutting the plate, saw tooth processing is further performed.

The punching process is a process of making a hole for fixing the fixing piece 20 on the jig block 110 seated on the turntable 100.

At this time, the jig block 110 is configured to be replaceable, in particular, if the pin hole 22 is formed in a number to be able to fix the position according to the size of the replaced jig block 110, one type of automated equipment Automatic inserting the insert fixing piece 20 can be performed efficiently.

Subsequently, the fixing piece 20 position fixing step is performed.

The fixing piece 20 position fixing step is a step of fitting the pin hole 22 of the fixing piece 20 to the fixing pin 112 formed on the jig block 110.

In this case, as shown in FIG. 4, the jig blocks 110 may be provided on the turntable 100 at a predetermined angle in a circumferential direction. Preferably, four jig blocks 110 may be provided at intervals of 90 °.

Here, the turntable 100 is designed to be driven by the index (INDEX) 120, the index 120 is installed on the machining table 130.

In addition, the index refers to the index drive, which is an intermittent ejection device applied to an automation facility, and when the input shaft is rotated at the same speed, the output shaft repeats a series of motions (turns) and stops in accordance with the intended movement. It is a device to exercise.

Such an index can be controlled by various drive types such as intermittent runaway motion, swing repetition motion, precisely controlled deceleration motion, differential split motion, irregular split motion, and swing return motion. Particularly, in the present invention, a departure departure → stop → Drive type of intermittent rotary motion type such as pulling out → stopping.

for example,

In the form of, as shown in Fig. 1, the turntable is intermittently rotated and controlled by the ejection / stop of the output shaft once per rotation of the input shaft.

In addition, the fixing pin 112 may be mounted to a plurality of fixing pieces 20 by increasing the height of the protrusion, in which case the efficiency is further increased.

In addition, the index 120 is controlled by the main controller 122, as shown in Figure 5, the main controller 122 is a kind of PLC or MCU, the movement time of the index, that is intermittent time, rotational speed Etc. can be set.

Subsequently, the mold inserting step of the fixing piece 20 is performed.

In the inserting step of the fixing piece 20, as shown in FIG. 6, the fixing piece 20 is inserted into the injection molding machine 300 to insert-insert the fixing piece 20 using the suction jig 200.

At this time, the adsorption jig 200 is a known air suction adsorber, it is configured to descend by the cylinder device by the thickness of the fixed piece 20 after one injection.

In general, since the thickness of the fixing piece 20 is about 0.4 mm, the first fixing piece is lowered by 0.4 mm and then rotated to absorb and hold the next fixing piece.

Therefore, if a plurality of, preferably ten fixing pieces 20 are stacked on one jig block 110, the adsorption jig 200 is lowered by a total of 4 mm according to ten operations to the last fixing piece. After 10 times of operation, the turntable 100 is rotated by 90 °, and the suction piece is transferred to the injection machine 300 by adsorption and transport of the fixed piece that is placed on the next jig block. Done.

In this case, the suction jig 200 is fixed to the robot arm and driven, and operates in a set sequence, thereby improving accuracy of operation, enabling automation, and enabling mass processing.

In particular, since the turntable 100 rotates while the adsorption jig 200 moves, the adsorption jig 200 does not need time to wait for the next fixed piece adsorption, thereby preventing process loss.

Thereafter, an injection molding step is performed.

The injection molding step is made in the same manner as the conventional through the injection machine 300, is molded in the concept that the fixing piece 20 is inserted into the cavity in the mold.

Then, the windage plate is commercialized in the form in which the fixing piece 20 is inserted into the base 10 in the form as shown in FIG. 3.

When the injection molding is completed, the final product takeout and inspection steps are performed.

The product is taken out by the conveyor belt when the mold is opened by the extraction rod, and the sampling inspection is performed to determine the good and defective items.

At this time, the inspection is a sampling inspection method, but if necessary, a full inspection is also possible.

As described above, the manufacturing method of the wind finger plate using the automated process according to the present invention enables accurate and precise transfer and mold injection without requiring skilled workers, and lowers product cost because it automatically performs mass processing. While minimizing product defects while ensuring the process, there is an advantage of maximizing manufacturing efficiency to prevent process loss.

100: turntable
200: adsorption jig
300: injection machine

Claims (2)

In the manufacturing method of the wind finger plate which is molded by inserting the fixing piece 20 when molding the base 10 by molding a synthetic resin;
A fixing piece 20 processing step of punching at least two pin holes 22 in the center of the plate surface of the fixing piece 20;
A fixing piece 20 position fixing step in which the pin hole 22 of the processed fixing piece 20 is inserted into the fixing pin 112 on the jig block 110 seated on the turntable 100 and stacked and stacked;
When the fixing piece 20 is fixed on the jig block 110, an injection machine for insert molding the fixing piece 20 by suction-taking one by one the fixing piece 20 using the suction jig 200 fixed to the robot arm ( A mold inserting step of the fixing piece 20 which is automatically injected into the mold 300;
An injection molding step of molding the fixing piece 20 to be inserted into the base 10 by supplying resin to the injection machine 300 into which the fixing piece 20 is to be inserted;
When the injection molding is completed, taking out the product out of the mold by using the take-out rod and product extraction and inspection step of reading out the good and defective products; wind-shield manufacturing method using an automated process comprising a.
The method according to claim 1,
The jig block 110 is provided on the turntable 100 at a predetermined angle in the circumferential direction; The turntable (100) is designed to be driven by an index (INDEX) 120; The index 120 is installed on the machining table 130; The jig block 110 is a method for manufacturing a wind finger plate using an automated process, characterized in that the pin hole 22 is provided with at least two or more fixing pins (112).

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