KR200264660Y1 - Air Wiper for Removing Moisture of Wire Coating - Google Patents

Abstract

The present invention relates to an air wiper for drying an electric wire cover, wherein the air wiper is configured in a polygonal shape, and each side forms a hemispherical groove having a different curvature, and a plurality of air vents are formed therein. Thus, the tunnel through the hemispherical groove side is formed in the groove portion through which the electric wire passes, so when air is injected, the air passes through the tunnel and the air is uniformly contacted with the entire outer circumferential surface of the electric wire, and the discharged air does not immediately spread outside It can be removed without changing the pressure and speed as much as the length of the wire, and it is possible to completely remove the moisture even by spraying less air, and thus the air wiper for removing moisture of the wire sheath which has the effect of reducing noise. It is about.

Description

Air Wiper for Removing Moisture of Wire Coating

The present invention relates to an air wiper for drying the wire covering, and in particular, by the configuration of the diversified air wiper to form a space portion in the discharge portion of the air, noise is reduced, the consumption of air and the efficiency of removing moisture is increased The present invention relates to an air wiper for removing moisture from wire coating.

A brief description of the process from the formation of the wire to the banding is performed through the process of wire insertion ⇒ extrusion passage ⇒ wire coating molding ⇒ cooling (water cooling) ⇒ printing ⇒ winding ⇒ bending.

However, when entering the printing process directly after the water-cooled cooling process, there is a problem such as printing does not occur or the printing is smeared due to the moisture remaining on the surface of the wire sheathing, so that the air is strongly discharged to cool or dry the drying process. In addition between the process and the printing process, the printing is clean.

Dehumidification of the wire sheath typically causes a high pressure air to be sprayed onto the wire sheath, causing water droplets to bounce off by the discharge pressure of the air and to dry the water molecules remaining on the wire sheath surface. As shown in FIG. 6, the air wipers 110 and 110 ′ are fixed to the upper and lower portions of the wire by the bracket 100 to the device, and the air wipers 110 and 110 ′ have grooves 120 whose curvature gradually increases. And a plurality of discharge ports 130 and 130 ′ are formed therein, so that the curvature of the groove 120 formed in the air wiper 110 and 110 ′ is adjusted to match the outer diameter of the electric wire, and the discharge hole ( 130) 130 'is directed to the reverse direction in which the wire proceeds to strongly discharge the air by the compressor to remove moisture.

However, the electric air wiper discharges air only from the upper and lower parts of the wire, so there is a possibility that water remaining on the side of the wire may remain, and since the amount of air must be increased as much as possible, it consumes a lot of unnecessary energy and the noise is very high. There is a problem.

In addition, the air injected from the discharge port is diffused to the outside immediately after contact with the wire, so that the efficient use of the air is not possible to completely remove the moisture and moisture there is a problem that the printing is smeared or the ink is easily dropped.

The present invention has been devised to eliminate the problems as described above, the air wiper is formed in a polygonal shape, each side of the hemispherical grooves with different curvatures, each of which forms a plurality of air vents therein Since the tunnel is formed by the hemispherical groove side in the groove part through which the electric wire passes, the air passes through the tunnel when air is injected and the air evenly contacts the entire outer circumferential surface of the electric wire. Since the discharged air does not diffuse to the outside immediately and proceeds without changing the pressure and speed as much as the length of the tunnel, it is possible to completely remove the moisture and also to remove the moisture even by spraying less air. It is an object of the present invention to provide an air wiper for dehumidifying a wire sheath having a reducing effect. All.

1 is a perspective view of the present invention

2 is a side cross-sectional view of the present invention

3 is a plan cross-sectional view of the present invention

Figure 4 is an operation diagram of the present invention air wiper

5 is another embodiment according to the present invention

6 is a perspective view of a conventional air wiper

Detailed description of the symbols for the main parts of the drawings

1: Rotator 2,2 ': Groove

3,3 ': Air vent 4,4': Groove

9: vent 10: air inlet

11 nozzle 12 fixed plate

13,13 ': Insertion groove 14: Spring

15 ball 16 wire

17: bracket

Hereinafter, an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view of the present invention air wiper, Figure 2 is a side cross-sectional view, Figure 3 is a cross-sectional view of the plane of the air wiper.

One end of the nozzle 11 in which the air inlet 10 is formed is coupled to a circular fixing plate 12, the fixing plate 12 forms a through-hole 9 through the air inlet 10 and the vertically In addition, a plurality of insertion grooves 13 and 13 ′ are formed on one side of the fixing plate 12, and the spring 14 and the ball 15 are inserted therein, and the ball 15 is formed by the spring 14. ) Causes snowfall,

The polygonal rotating body 1 having the hemispherical grooves 2 and 2 'having different curvatures on each side forms a plurality of air vents 3 and 3', but the rotating body 1 It is formed obliquely from the center of, and one side between the air vent (3) and the air vent (3 ') to form a groove (4) (4'),

The fixed plate 12 and the rotating body 1 are coupled to each other, and the rotating body 1 is inserted into the outer circumferential surface of the fixing plate 12, and the recesses 4 and 4 'and the ball ( 15) are opposed to, and the vent 9 and the air vent (3) of the fixed plate 12 is combined to match.

Moreover, the formation direction of the groove 2 (2 ') can also be formed in the direction of the nozzle 11 rather than the rotation direction of the rotating body 1, and can be combined.

In the drawings, reference numeral 16 denotes an electric wire and 17 a bracket.

Referring to the operation of the present invention by the above configuration in more detail as follows.

As shown in FIG. 4, the inventive air wiper is installed to face the wires 16 in a symmetrical manner, and a lot of moisture and moisture remain on the surface of the wire 16 that has undergone a water cooling cooling process.

At this time, the wire passes through the air wiper of the present invention and one side undergoes a removal process. As described above, since the two air wipers are opposed to each other, hemispherical grooves 2 and 2 'formed on the rotating body 1 are provided. ), A tunnel with a constant inner diameter is formed.

When the electric wire 16 is inserted into this tunnel and the high pressure air flows into the fixed plate 12 by the nozzle 11 in which the air inflow hole 10 was formed, the ventilation hole 9 formed in the fixed plate 12 is opened. Through this, the air is discharged to the corresponding air vent 3 of the rotating body 1.

The air discharged at high pressure and high speed by the air vents 3 and 3 'removes moisture and moisture from the wires 16. As in the related art, the discharged air does not immediately diffuse outside, but has a constant length. Since there is no change in pressure and speed of the air by the length of the tunnel, the amount of air in contact with the surface of the wire 16 is increased.

In addition, conventionally, since the air is discharged only in the upper and lower parts, there was a problem in that moisture and moisture remaining on the side of the wire 16 were not completely removed, but the tunnel and the side and the wire 16 were formed by the present invention. Since the air evenly contacts the entire outer circumferential surface, the effect of moisture removal is very large.

Here, since the plurality of air vents 3 and 3 'are formed obliquely from the center of the rotating body 1, a horizontal tunnel is formed by grooves 2 and 2' formed in the rotating body 1. Even if the air vent (3) (3 ') is formed in an inclined shape, the air vent (3) (3') is to discharge the air to one side, that is, in the reverse direction that the electric wire 16 proceeds.

In addition, when the outer diameter of the electric wire 16 is different, the adjustment is possible by simple rotation of the air wiper, and one of the two air wipers fixed by the bracket 17 is separated from the bracket 17 and the corresponding electric wire When the grooves 4 and 4 'of the rotor 1 suitable for the thickness of 16 are selected and the outer diameter of the rotor 1 is rotated, the insertion grooves 13 and 13' of the fixing plate 12 are rotated. The ball 15, which was piled up by the inner spring 14, rotates freely from the groove 4, 4 'of the rotating body 1, and when the rotating body 1 rotates at an angle, In the groove 4, 4 ', the ball 15 turned by the spring 14 of the fixing plate 12, the insertion groove 13, 13' is seated and guides the rotation angle of the rotor 1 accurately. It is.

That is, the ball 15, which is installed in the spring 14 in the insertion grooves 13 and 13 'of the fixing plate 12, rotates the rotor 1 so that the rotor 1 can be rotated only by artificial force. In addition to being intact, it is to act to induce the rotation angle of the rotating body 1 accurately. The rotating body 1 is rotated through the air vent (3 ') and the ventilation hole of the fixed plate 12 ( In this way, the air is discharged to the air vent 3 '. Thus, the groove of the air wiper 2, which rotates a certain angle by artificial force on one side of the air wiper, and also supplies another air wiper, It is only necessary to rotate the grooves 2 and 2 'of the other rotating body 1 having a curvature coinciding with 2').

When the two air wipers are rotated and the air wipers separated from the brackets 17 are fixed again, an air wiper having a tunnel suitable for the thickness of the wire 16 is formed.

As a tunnel is formed by the grooves 2 and 2 'of the polygonal rotating body 1 as described above, an efficient moisture removal as well as an extremely low consumption of air cause an energy reduction effect. The air discharged by 3 ') becomes a vacuum while passing through the tunnel, so the noise is reduced.

In addition, the ball 15 and the grooves 4 and 4 'formed on the rotating body 1 formed by the spring 14 are not precisely rotated by rotating the rotating body due to the improvement of the eyes or the rough improvement as in the prior art. It is possible to rotate the angle, as well as the adjustment of the rotating body 1 according to the thickness of the wire 16 is very easy.

In addition, as shown in FIG. 5, the forming direction of the grooves 2 and 2 ′ formed in the rotor 1 is formed in a right angle direction of each side, and the grooves 2 and 2 ′ coincide to form a tunnel. It is also possible to use the same, and the opposite direction to the formation direction of the groove (2) (2 ') described above, so that the input direction of the wire 16 is rotated at right angles so that the fixed position of the bracket (17) You can use it.

The groove (2) (2 ') formation method can achieve the same effect as described above, as well as the processing is very easy to reduce the manufacturing cost.

The air wiper for removing moisture of the wire covering of the present invention as described above can be completely removed from the moisture because the air discharged from the air vent does not immediately diffuse to the outside and proceed without changing the pressure and speed as much as the length of the tunnel. Air can be completely removed even by spraying the air, thereby reducing the noise.

Claims (2)

One end of the nozzle 11 in which the air inlet 10 is formed is coupled to a circular fixed plate 12, the fixing plate 12 forms the air inlet hole 10 and the vertical vent hole 9 penetrated therein. On the one side of the fixing plate 12, a plurality of insertion grooves 13 and 13 'are formed, and the spring 14 is inserted into the ball 15 at the end of the spring 14. The polygonal rotating body 1 in which hemispherical grooves 2 and 2 'of each side having different curvatures in the longitudinal direction of each side forms a plurality of air vents 3 and 3', It is formed obliquely from the center of the rotating body 1, and grooves 4 and 4 'are formed at one side between the air vent 3 and the air vent 3', The rotor 1 is inserted into the outer circumferential surface of the stationary plate 12, and the grooves 4 and 4 ′ of the rotor 1 and the balls 15 of the stationary plate 12 that are electrically opposed are engaged with each other. The air wiper for removing moisture of the wire sheath, characterized in that the vent hole (9) and the air vent (3) of 12) are matched. 2. The air wiper for removing moisture from a wire coating according to claim 1, wherein the direction of the grooves (2) (2 ') formed in the rotating body (1) is formed in the width direction of each side.