KR101858415B1 - Wire coating apparatus - Google Patents

Abstract

The present invention relates to a wire coating apparatus, and more particularly, A coating unit disposed at the rear of the wire supplying unit and interposed between the wire and the center of the wire, A driving unit for providing driving force for rotating the coating unit; And a coating roller disposed at a rear side of the coating part and winding a coating wire coated with an outer material, wherein the coating part has a supply roll wound around the outer circumferential surface of the coating material, Wherein the central shaft is provided with an elastic spring at an end thereof for applying an elastic force so that the supply roll is in close contact with the rotation of the supply roll; A wire coating device installed in a linear arrangement in a pair configuration of two wire parallel arrangements on one base frame with respect to the wire supplying part, the coating part and the wire receiving part, A pair of coating wire bobbins spaced from each other and recharging from the respective wire bobbins to a continuous process for feeding the coated wire coated with the bobbins to the supplier; A pair of coating wires arranged in front of the respective coating wire bobbins and guiding coating wires supplied from the respective wire bounces and taken in for re-winding to allow continuous and stable rewinding of the coating wires on the bobbin side of each coating wire bobbin part And a re-winding guide part of the re-winding guide.
According to the present invention, there is provided a wire coating apparatus capable of improving space efficiency and work efficiency in connection with installation and operation of the apparatus, and a wire bobbin winding work for providing a wire bobbin And can be processed without any additional process, and it is possible to perform stable operation while preventing abrasion or damage of the coated material coated on the coated wire side, It is possible to increase the efficiency of coating the outer surface of the wire by coating the outer surface of the wire.

Description

[0001] WIRE COATING APPARATUS [0002]

More particularly, the present invention relates to a wire coating apparatus for winding a coating material on an outer surface of a wire by removing a foreign substance from the supplied wire, The present invention relates to a wire coating apparatus including a rewinding guiding unit and an improved structure of a foreign matter removing unit so as to be picked up and supplied to a bobbin for receiving a continuous work.

In general, a variety of wires are used in electrical devices operating in oil.

Such wires are typically flat wires having a rectangular cross-section, and are used for manufacturing windings for transformers and electrical machines.

Conventional wires form a coating layer made of paper or yarn for insulator function, and the coating layer functions as a spacer for the windings arranged adjacent to the wire.

In this case, a coating apparatus is required to coat the wire with a coating layer. In the prior art, a wire is linearly fed, a feed roller wound with a paper or yarn is disposed outside the wire, and a paper or yarn fed from the feed roller is wound on the wire Method was used.

However, there is a problem in that space efficiency is very low when the feed roller is disposed outside the wire.

In order to solve these drawbacks, the applicant of the present invention has proposed a technique of a wire coating apparatus through Korean Patent No. 10-1511479, and thus an improved structure is applied.

Korean Patent Publication No. 10-1511479

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a wire coating apparatus including an improvement structure for improving space efficiency and work efficiency in installation and operation of the apparatus .

The present invention relates to a wire-coating method and a wire-coating method, in which foreign materials are removed from a supplied wire, a coating material is coated using a rotational force, and a coating wire coated with an outer material is wound thereon, The purpose of the device is to provide.

The present invention relates to a wire coating apparatus capable of performing a stable winding operation while preventing wear or damage of a coated material coated on a coated wire side and capable of removing foreign matters from a supplied wire to improve the coating efficiency of the coat material The purpose is to provide.

According to an aspect of the present invention, there is provided a wire coating apparatus including: a wire supplying unit for supplying a wire; A coating unit disposed at the rear of the wire supplying unit and interposed between the wire and the center of the wire, A driving unit for providing driving force for rotating the coating unit; And a coating roller disposed at a rear side of the coating part and winding a coating wire coated with an outer material, wherein the coating part has a supply roll wound around the outer circumferential surface of the coating material, Wherein the central shaft is provided with an elastic spring at an end thereof for applying an elastic force so that the supply roll is in close contact with the rotation of the supply roll; A wire coating device installed in a linear arrangement in a pair configuration of two wire parallel arrangements on one base frame with respect to the wire supplying part, the coating part and the wire receiving part, A pair of coating wire bobbins spaced from each other and recharging from the respective wire bobbins to a continuous process for feeding the coated wire coated with the bobbins to the supplier; A pair of coating wires disposed in front of the respective coating wire bobbins and guiding the coating wires supplied from the respective wire bounces rejection jackets to allow continuous and stable rewinding of the coating wires on the bobbin side of each coated wire bobbin portion And a re-winding guide portion.

Here, each of the rewinding guide portions includes a support frame which is a U-shaped structure fastened and fixed on the base frame, and which is disposed so as to cross the feeding direction of the coating wire; An upper fixing table and a lower fixing table, both ends of which are fixed to the supporting frame, A support having a support which is movably supported on the upper fixture so as to be laterally displaced to the left and right and has a support protruding upward at one side of the upper surface; A rotation support rod having one end coupled to the support and rotatably installed; A pair of vertical guides protruding upward and parallel to the upper or lower end of the support to guide the coating wire; And a pivoting member having one end supported by the lower fixing table and the other end supported and coupled to the lower surface of the support.

Here, the upper side fixing strips are provided on a pair of upper and lower parallel strips on the supporting frame to stably support the supporting body and undesirably turn (rotate) in the feeding direction by the winding force of the coating wire ≪ / RTI > It is preferable that the lower fixing table is installed forward or rearward relative to the upper fixing table in order to smoothly rotate the tiltable member when a force is applied thereto.

The foreign matter removing unit may be configured to remove the foreign substance through the contact while guiding the feeding of the wire supplied from the wire supplying unit, between the wire supplying unit and the coating unit.

Here, the foreign matter removing unit may include a supporting frame which is a " U " -shaped structure that is fastened and fixed on the base frame, and which is disposed so as to cross the feeding direction of the wire. A fixing frame fixedly coupled to both sides of the support frame and having an inner through-hole so that the wire passes through; And a foreign matter removing member which is fixedly coupled to the hollow inner side of the through-hole of the fixing frame and contacts the wire to remove foreign matter adhering to the surface.

Here, the foreign matter removing member may be a fabric, a leather material, or a sponge; The fabric may be any one selected from cotton fabric, fused fabric, and microfiber fabric.

Here, the fixing unit is provided as a separator-type dichromatic body and can be fastened and detached using a bolt-nut coupling member, so that the foreign material removing member can be easily replaced.

Here, the pair of coated wire bobbin portions and the rewinding guide portion may have a two-row structure instead of a two-row parallel arrangement for space efficiency, mutual interference elimination and stable driving according to the line-shaped linear installation of the wire coating apparatus, As shown in FIG.

According to the present invention, there is provided a wire coating apparatus including an improved structure capable of improving space efficiency and work efficiency in installation and operation of the apparatus.

The present invention can complete the bobbin winding work for providing to the person supplied by the continuous process in one wire coating apparatus and can be processed without any additional process operation and the wear of the coated material coated on the coated wire side It is possible to perform stable rewinding work while preventing damage and it is possible to improve the efficiency of coating the outer surface of the wire by coating the surface of the wire by removing the foreign matter that may be naturally embedded in the wire during the feeding operation of the wire can do.

1 is a perspective view showing a wire coating apparatus according to an embodiment of the present invention.
2 and 3 are perspective views illustrating a wire coating apparatus including a detailed configuration of a coating unit according to an embodiment of the present invention.
4 is a detailed configuration diagram illustrating a rewinding guide unit in a wire coating apparatus according to an embodiment of the present invention.
5 is a detailed block diagram illustrating a foreign substance removing unit in a wire coating apparatus according to an embodiment of the present invention.
6 is a perspective view showing another embodiment of the foreign matter removing unit in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. The present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

1 to 6, a wire coating apparatus 100 according to an embodiment of the present invention includes a wire supplying unit 110, a coating unit 120, a wire receiving unit 140, a coating wire bobbin unit 150, A rewinding guiding unit 160, and a foreign matter removing unit 180. [0035]

And a first driving unit 130 for rotating the coating unit 120. The first driving unit 130 may be configured to simultaneously control the rotation of the wire supplying unit 110 and the wire receiving unit 140 and the coating wire bobbin unit 150 And a second driving unit 170.

The wire feeding part 110, the coating part 120, the wire receiving part 140, the coating wire bobbin part 150, the rewinding guide part 160 and the foreign matter removing part 180 are formed in one base frame 101 ), And are arranged in a linear arrangement in a line shape.

The wire feed unit 110, the coating unit 120, the wire rejection unit 140, and the foreign matter removing unit 180 are installed in pairs in a two-row parallel arrangement, and the coating wire bobbin 150 And the rewinding guide unit 160 have a two-row structure, not a two-row parallel arrangement, for space efficiency, mutual interference elimination and stable driving according to the line-shaped linear installation of the components of the wire coating apparatus 100, As shown in FIG.

The wire supplying part 110 is a component for supplying a wire W and is provided in a roll form and is wound around the wire W to be wound while being rotated by the second driving part 170 The wound wire W is supplied.

At this time, the wire feeder 110 may include a sensor 111 for confirming when the wire W is cut and stopping the operation.

The wire W supplied through the wire supplying part 110 may be a flat wire or a circular wire.

The coating part 120 is disposed behind the wire supplying part 110 and is inserted into the center of the wire W. The surface of the wire W to be supplied and conveyed by the rotation of the first driving part 130, (M).

Here, the sheath material M may be made of various insulating materials including threads.

The coating unit 120 is provided with a supply roll 121 wound around an outer circumferential surface of a sheath material M so that the supply roll 121 is rotated such that the center axis 122 through which the supplied wire W is inserted is rotated .

At this time, the center shaft 122 has an elastic spring 123 that externally applies an elastic force so that the supply roll 121 is closely contacted with the end of the supply roll 121. When the elastic spring 123 is compressed by tightening the stopper C, .

The coating part 120 may be arranged in series for two consecutive coatings, and may be arranged in three or more as necessary.

The coating unit 120 may coat the surface of the wire W with the covering material M through rotation and align the covering material M by placing an alignment unit AL having a small clearance therebetween.

The supply roll 121 may be installed between the coating part 120 and the wire receiving part 140 so as to preliminarily store the supply roll 121.

The first driving unit 130 provides a driving force to rotate the coating unit 120.

Here, the first driving unit 130 may be a motor, and may be provided with a driving force to provide a pair of coating units 120. For this purpose, a power transmitting member such as a pulley and a belt B may be used .

The wire count rejection unit 140 is disposed behind the coating unit 120 and collects a coated wire (CW) coated with a sheath material.

At this time, the wire count rejection unit 140 is provided as a round mold of a roll type so as to be able to wind the coating wire CW and is rotatably installed, and is provided with a driving force so as to be able to rotate from the second driving unit 170 .

The wire count rejection unit 140 winds up a coating wire (CW) coated with an encapsulation material and re-supplies it to the coating wire bobbin part 150 side.

The coated wire bobbins 150 are spaced behind the wire bosses 140 and are passed from the wire bosses 140 to feed the coated wire CW coated with an encapsulant directly Rewound by continuous process.

The coating wire bobbin part 150 is installed on the base frame 101 so as to be capable of releasably attaching a bobbin 151 of a failure type and is wound around a bobbin winding The work can be completed, so that all processes can be continuously performed in one apparatus without any separate process operation.

The bobbin 151 may be inserted or removed on a rotating shaft that is rotatably supported on the base frame 101 so that the bobbin 151 coupled to the rotating shaft is not separated A locking fastener is mounted in the outer direction.

The rewinding guide portion 160 is disposed in front of the coating wire bobbin portion 150 and is installed between the wire receiving portion 140 and the coating wire bobbin portion 150 to be supplied from the wire receiving portion 140 Thereby guiding the coating wire (CW) for taking up the juncture so that a continuous and stable rewinding operation of the coating wire (CW) is performed on the bobbin 151 side of the coated wire bobbin part (150).

4, the rewinding guide unit 160 includes a support frame (hereinafter, referred to as " UW ") having a U-shaped structure fastened and fixed on the base frame 101 and crossing the supply direction of the coating wire CW And an upper fixing table 162 and a lower fixing table 163 which are vertically disposed on both ends of the support frame 161. The upper fixing table 162 and the upper fixing table 163 are movably supported on the upper fixing table 162 A support member 164 having a support 164 protruding upward from one end of the support member 164; a rotation support rod 165 horizontally disposed at one end of the support member 164a and rotatably attached to the support member 164a; A pair of vertical guides 166 protruding from and parallel to the upper end of the upper surface of the upper plate 164 and guiding the coating wire CW, And the other end is connected It is coupled to the support when the support of the group 164 can be configured to include a pivoting member 167 that is provided rotatably (回 動).

The upper fixing bars 162 are arranged on the supporting frame 161 in parallel so as to be parallel to each other so as to stably support the supporting body 164 and to wind the coating wire CW It is preferable to prevent the support body 164 from being undesirably rotated in the feeding direction (rewinding direction).

The lower fixing table 163 is provided on the front side or the rear side of the upper fixing table 162 so as to secure a turning radius for smoothly rotating the lower fixing table 167 when a force is applied to the tiltable member 167 It is preferable to arrange them in a fixed manner.

The supporting member 164 is supported on the upper fixing table 162 so as to be movable in the right and left direction so as to correspond to the variation of the winding position of the coating wire CW on the bobbin 151 of the coated wire bobbin portion 150 So that a continuous and stable rewinding operation for the coating wire (CW) can be guided.

The rotation support bar 165 is provided to guide the coating wire CW in contact with the upper surface of the coating wire CW supplied and fed from the wire support member 140, Thereby making it possible to smoothly guide and rewind the coating wire (CW) with the coating wire bobbin part (150) while preventing the abrasion.

A film layer may be formed on the surface of the rotation support rod 165 to provide a smooth surface for improving the easiness of feeding and feeding the coating wire CW on the contact with the coating wire CW, It is possible to increase the abrasion prevention efficiency.

The pair of vertical guides 166 are arranged in a vertically arranged state so as to have a clearance through which the coating wire CW can escape and the coating wire rewound on the bobbin 151 side of the coated wire bobbin part 150 So that a stable rewinding operation can be performed.

At this time, the pair of vertical guides 166 may be rotatably installed to prevent wear of the coated casing material M due to contact of the coating wire (CW).

The tiltable member 167 is a component for supporting the support member 164 and supports a stable operation with rewinding of the coating wire.

The second driving unit 170 is a motor that provides a driving force for simultaneously rotating the wire receiving unit 140 and the coating wire bobbin unit 150. For this purpose, A transmitting member may be used.

The foreign material removing unit 180 is installed between the wire supplying unit 110 and the coating unit 120 and guides the wire W supplied from the wire supplying unit 110 to remove the foreign substance do.

5, the foreign material removing unit 180 includes a support frame (hereinafter, referred to as " U ") structure which is fastened and fixed on the base frame 101, A fixing frame 182 having an inner through hole 182b fixedly coupled to the support frame 182a at both sides of the fixing frame 182a so that the wire W passes through the fixing frame 182 in the feeding direction, And a foreign matter removing member 183 fixed to the inner surface of the through-hole 182b and having contact with the surface of the wire W to remove foreign matter adhering to the surface.

As shown in FIG. 6, the fixing frame 182 is provided as a separator type dichromatic body and can be fastened and detached using a coupling member such as a bolt and a nut. Thus, on the fixing frame 182, It is preferable to configure the switch 183 to be easily replaceable.

The through-hole 182b of the fixed frame 182 is formed in a rectangular shape as shown in the case where the wire W supplied through the wire feeder 110 is a flat wire, or in the case of a circular wire, .

The foreign matter removing member 183 may be made of a fabric, a leather material, or a sponge, and the fabric material may be any one selected from cotton fabric, fused fabric, and microfiber fabric.

The foreign material removing unit 180 can smoothly remove foreign substances such as oil from the surface of the wire W supplied through the wire supplying unit 110 through the surface contact with the wire W during feeding and feeding, The coating material M can be wound around the surface of the wire W to improve coating efficiency such as slip prevention and improve work efficiency.

Accordingly, the present invention provides a wire coating apparatus capable of improving space efficiency and work efficiency in installation and operation of the apparatus.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. May be made, which will be within the technical scope of the present invention.

100: wire coating device 110: wire feeding part
120: coating part 130: first driving part
140: wire number rejection 150: coating wire bobbin portion
160: rewinding guide portion 161: support frame
162: upper side fixing table 163: lower side fixing table
164: support 164a:
165: rotation support rod 166: vertical guide
167: pivoting member 170: second driving part
180: Foreign object removing unit 181: Support frame
182: Fixing frame 182a:
182b: Through hollow 183: Foreign matter removing member
M: sheath material W: wire
CW: Coated wire

Claims (8)

A wire supplying part for supplying a wire; A coating unit disposed at the rear of the wire supplying unit and interposed between the wire and the center of the wire, A driving unit for providing driving force for rotating the coating unit; And a coating roller disposed at a rear side of the coating part and winding a coating wire coated with an outer material, wherein the coating part has a supply roll wound around the outer circumferential surface of the coating material, Wherein the central shaft is provided with an elastic spring at an end thereof for applying an elastic force so that the supply roll is in close contact with the rotation of the supply roll; A wire coating apparatus installed in a pair of two rows parallel arrangement on one base frame for wire feed, coating and wire withdrawal,
A pair of coating wire bobbles spaced rearward of each wire count rejection and recharging from each wire count rejection to a continuous process for feeding directly to the supplier a coated wire coated with an envelope material;
A pair of coating wires arranged in front of the respective coating wire bobbins and guiding coating wires supplied from the respective wire bounces and taken in for re-winding to allow continuous and stable rewinding of the coating wires on the bobbin side of each coating wire bobbin part A rewinding guide portion of the rewinding guide; / RTI >
Wherein each of the re-
A supporting frame which is a "U " -shaped structure fastened and fixed on the base frame, and which is disposed so as to cross the feeding direction of the coating wire;
An upper fixing table and a lower fixing table, both ends of which are fixed to the supporting frame,
A support having a support which is movably supported on the upper fixture so as to be laterally displaced to the left and right and has a support protruding upward at one side of the upper surface;
A rotation support rod having one end coupled to the support and rotatably installed;
A pair of vertical guides protruding upward and parallel to the upper or lower end of the support to guide the coating wire;
A pivoting member having one end supported by the lower fixing table and the other end supported by the lower surface of the support and rotated; Wherein the wire-coating apparatus comprises: delete The method according to claim 1,
The upper-
A pair of upper and lower substrates arranged on the support frame to stably support the support member and to prevent unwanted rotation of the support wire in the feeding direction due to the force of the coating wire being wound;
The lower fixture includes:
Wherein the wire is installed forward or rearward relative to the upper fixing table in order to smoothly rotate the tilting member when a force is applied thereto. The method according to claim 1,
A foreign matter removing unit installed between the wire supplying unit and the coating unit and guiding the wire supplied from the wire supplying unit to remove foreign substances through contact; Wherein the wire-coating apparatus comprises: 5. The method of claim 4,
The foreign-
A supporting frame which is a "U " -shaped structure fastened and fixed on the base frame, and which is disposed so as to cross the feeding direction of the wire;
A fixing frame fixedly coupled to both sides of the support frame and having an inner through-hole so that the wire passes through;
A foreign matter removing member which is fixedly coupled to the through-hole hollow inner surface of the fixed frame and contacts the wire to remove foreign matter adhering to the surface; Wherein the wire-coating apparatus comprises: 6. The method of claim 5,
The foreign matter removing member
A fabric or leather or a sponge;
Wherein the fabric is any one selected from the group consisting of cotton fabric, fused fabric, and microfiber fabric. 6. The method of claim 5,
The fixed-
Separator type dichromatic body, and can be fastened and detached using a joining member of a bolt and a nut, so that the foreign material removing member can be easily replaced on the fixing frame. The method according to claim 1,
The pair of coating wire bobbin portions and the rewinding guide portions
Wherein the wire coating apparatus has a two-row structure instead of a two-row parallel arrangement for the space efficiency and the interference elimination and the stable operation according to the line-shaped linear installation of the wire coating apparatus.

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