KR860006814A - Low pressure winding manufacturing apparatus and method for toroidal transformer - Google Patents

Abstract

No content

Description

Low pressure winding manufacturing apparatus and method for toroidal transformer

Since this is an open matter, no full text was included.

1 is a perspective view of a low pressure winding device according to the present invention. 2 is a right side view of the winding apparatus of FIG. 3 is a front view of the wire accumulating enclosure of the winding device of FIG. 1 and a partial cross section of a shuttle;

Claims (11)

A method for manufacturing a multi-wheel winding having a toroidal type, using an arc-shaped winding rod, the toroidal winding device being rotatable about a winding shaft orthogonal to the axis of rotation of the winding core rod and onto the winding core rod. A housing for carrying the wire to be wound, and also having a drum which is located on the enclosure and the star shaft and which is rotatable about the winding shaft while surrounding the winding core rod, the drum being coupled thereto A method having guide means operable to guide a wire from a winding rod to a winding rod, said method comprising the steps of: supporting and reciprocatingly rotating said winding core rod about an axis of rotation of said winding rod; Rotates the drum and the enclosure in one direction around the winding shaft and one side around its rotation Winding the first strand of one or more wires onto the winding core rod, and rotating the drum and the enclosure in the opposite direction around the winding shaft, while around the axis of rotation thereof. Winding the second strand of the one or more wires with the winding core rod by rotating the winding core rod in an opposite direction, wherein each of the windings of the second strand is formed of the first strand on the winding core rod. Low voltage winding manufacturing method for a toroidal transformer, characterized in that located between the windings. The method of claim 1, further comprising: winding one or more wires around a nail positioned adjacent one end of the winding mandrel by extending the one or more wires wound outwardly of the winding mandrel to form a lead at an end of each strand; Continue winding the additional strands of the one or more wires onto the winding mandrel between the preceding strands until the radially inner surface of the winding mandrel is filled side by side with wires to form a first layer of windings. Continuing to wind one or more wires around, and winding additional strands of the one or more wires onto the winding mandrel between the leading strands of the radially outer surface of the winding mandrel and radially inner surface of the winding mandrel. Accumulating radially on the windings of the first layer in Continued and also the method is characterized by further comprising the step of continuing to roll to the one or more wires around the motdeul. The method of claim 1, wherein the winding core rod is characterized in that it has a semi-toroidal shape. 3. The method of claim 2, further comprising: electrically connecting portions of the wire wound around one of the nails together to increase the number of parallel multiwheeled wires in the winding and a portion of the wire wound around the other of the nails. And electrically connecting them together. 2. The method of claim 1, wherein the enclosure carries two or more wire strands, and wherein the winding the wire onto the winding mandrel comprises placing two or more wire strands side by side on the winding mandrel. 3. The winding of claim 1, wherein the windings of the first group are manufactured by the steps described above, and the windings of the second group rotate the winding mandrel in one direction around its axis of rotation while Rotating the enclosure turns the first strand of one or more wires of the second group onto the winding mandrel on top of the windings of the first group and rotates the drum and the enclosure in the opposite direction around the winding axis. The winding on the top of the first group of windings by rotating the winding core rod in the opposite direction around its axis of rotation with each winding of the second strand positioned between the windings of the first strand on the winding core rod Winding the strand of the one or more wires onto a winding rod, wherein the radially inner surface of the winding rod is Continue to wind additional strands of the one or more wires of the second group between the preceding strands onto the winding mandrel on top of the windings of the first group until the layers of them are filled side by side, and At the radially inner surface of the winding mandrel, winding additional strands of the one or more wires of the second group between the preceding strands of the second group on the radially outer surface of the winding mandrel onto the winding mandrel on top of the windings. And fabricate the windings of the first group on the winding mandrel by further steps that continue to accumulate radially side by side on the layer of wires of the second group. 2. The method of claim 1, further comprising electrically connecting portions of the two or more wires together to increase the number of parallel multiwheeler wires in the winding. A method for manufacturing a multi-wheel winding having a toroidal shape, using an arc-shaped winding rod, the toroidal winding device being rotatable around a winding shaft orthogonal to the axis of rotation of the winding core rod, A housing carrying two or more wire strands to be fed, and also enclosing the winding core rod, positioned on the concentric shaft with the enclosure, having a drum rotatable about the winding shaft, The method has a guide means coupled thereto and operable to guide wire from the enclosure to the winding mandrel, the method comprising: supporting the winding mandrel about a rotation axis of the winding mandrel while rotating And winding one or more windings of the first type of two or more wire elements onto the winding core rod. And winding a winding of the second type of winding of the two or more wire strands onto the winding core rod side by side with the one or more windings of the first type on the radially outer surface of the winding core rod. Radially accumulating on portions of the one or more first-type windings at an inner surface, and the first and second of the two or more wire elements with the winding mandrel until a multiwheel winding is complete; Alternately winding the windings of the type, each of the first windings being positioned side by side with the winding of the first type preceding on the radially inner surface of the winding mandrel and also leading on the radially outer surface of the winding mandrel. Located side by side with the windings of the second type, each of the second type windings has at least one preceding first at the radially inner surface of the winding mandrel. And accumulation of the wound portions of Sang - Seo also a method is characterized by including such a step are located side by side and the winding of the first type from the preceding volume cable core rod radially outward surface. 9. The winding of claim 1, wherein the windings of the first group are manufactured by the steps described above, wherein the windings of the second group are of two or more wire elements of the second group onto the winding core rods on top of the windings of the first group. Winding one or more windings of a winding of a first type, and winding the second or more types of wires of the two or more wires onto the winding core rod side by side with the one or more windings of the first type on a radially outer surface of the winding mandrel; Winding one winding of the rod and radially accumulating on portions of the one or more first-type windings on the radially inner surface of the winding mandrel, and until the windings of the second group are completed Alternately winding the windings of the first and second types of the two or more wire elements onto the winding core rod on top of the windings of the first winding as Each of the windings is positioned side by side with the winding of the first type preceding on the radially inner surface of the winding mandrel, and is also parallel to the winding of the second type preceding on the radially outer surface of the winding mandrel, and winding of the second type. Each of which accumulates on portions of one or more preceding first type windings at the inner surface of the winding mandrel and is positioned alongside the winding of the first type preceding the radial outer surface of the winding mandrel. How it is characterized. In an apparatus for manufacturing a multiwheel winding having a toroidal shape, the apparatus comprises: a toroidal shape winding rod, and rotating the winding rod to support and position the winding rod and around its axis of rotation. A rotary support means which can be operated so that it can be operated so as to carry a supply wire to be wound onto the winding mandrel, the housing being rotatable in two directions around a winding shaft orthogonal to the mandrel shaft, and the winding mandrel A drum rotatable in two directions around the winding shaft positioned coaxially with the enclosure, and guiding wire from the enclosure to the winding core rod, the guide means being coupled to the drum. And a wire that rotates the winding mandrel in one direction around the mandrel shaft, while around the winding shaft. By rotating the enclosure and the drum in one direction, and then rotating the winding core rod in a different direction around the mandrel shaft while rotating the enclosure and the drum in a different direction around the winding shaft. The device characterized in that it is wound onto the winding mandrel to form. 11. The apparatus of claim 10, wherein the enclosure is operable to carry two or more wire strands, and the drum is operable to place the two or more wire strands side by side on the winding core rod. ※ Note: The disclosure is based on the initial application.