JPS6285416A - Lead holding plate for transformer - Google Patents

Abstract

PURPOSE:To improve the operating efficiency by forming an insulating plate in a sectional shape for disposing external wiring leads of a transformer in a row at a predetermined interval, and aligning fixedly the leads by the cutout and the stationary portion at the predetermined interval on the insulating plate in the row. CONSTITUTION:An insulating plate 11 is formed in a sectional shape for disposing leads 12 at a predetermined interval in a row, a cutout 16 for passing core wirings 15 of the leads 12 is formed on the front end of each row 14, and a stationary portion 17 for securing the leads 12 at every row is formed on the rear end of each row 14. Thus, the leads 12 are disposed along the row 14 of the sectional shape, the wirings 15 are passed to the cutout 16, and the leads 12 are secured by the portion 17, thereby aligning the leads 12, 12,... at a predetermined interval on the plate 11 to be secured. Accordingly, the operating efficiency can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a lead wire holding plate for connecting lead wires for external wiring to coil ends of a transformer, and in particular to a lead wire holding plate for connecting lead wires for external wiring to coil ends of a transformer.
(Relating to a lead wire holding plate for a transformer that allows wires to be easily arranged and fixed in rows at predetermined intervals.)

2. Description of the Related Art As shown in FIGS. 8 and 9, a conventional transformer wire holding plate 1 has a flat rectangular insulating plate 2 with a plurality of holes 3, 3 . ... and these holes 3,
3. As shown in Fig. 9, the core wire 5 of the lead wire 4 for external wiring is inserted from the upper surface side of the insulating plate 2 through the two adjacent holes 3.3, and the core wire 5 of the lead wire 4 for external wiring is inserted into the lower surface side. The current core wire 5 is inserted through the other hole 3 to the upper surface side and tied around the base of the core wire 5 and fixed, and as shown in FIG. 8, a plurality of lead wires 4, 4... were fixed to the insulating plate 2 so as to be parallel to each other.

Then, such a lead wire holding plate 1 is attached to the outer circumferential surface of the coil of a transformer (not shown), and the connecting end of the coil is tied to the core wire 5 of each lead wire 4 (11) and connected. Was.

Problems to be Solved by the Invention However, in the wire holding plate 1 as described above, the holes 3. :),... was selected for the two holes 3, 3 in the row and column, and the core wire 5 of the lead wire 4 had to be inserted into the two holes 3, 3 one by one. Therefore, the work of arranging and fixing the plurality of lead wires 4, 4, .

Therefore, an object of the present invention is to solve such problems.

Means for Solving the Problems The means of the present invention for solving the problems described in 1-1 is to install lead wires for external wiring of the transformer at predetermined intervals on an insulating plate having a hardness that allows it to maintain a constant shape. A cross-sectional shape is provided to arrange the wires in a row, and the front end of each row is provided with a notch through which the core wire of the lead wire is passed, and the rear end of each row is provided with a notch for passing the lead wire. This is achieved by forming a fixing part for each row, and fixing the lead wires to the insulating plate by arranging them in rows at predetermined intervals using the notches and fixing parts.

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

1 and 2 are a plan view and a side view showing an embodiment of a lead wire holding plate 10 for lances 1 to 1 according to the present invention. This lead wire holding plate 10 is for connecting lead wires for external wiring to the coil ends of a transformer (not shown), and includes an insulating plate 11 and a plurality of lead wires 12, 12, . It is a combination of... 1-Distribution edge plate 11 has a plurality of lead wires 1
2,12. ... are fixed in rows at predetermined intervals (1)tt, and are made of a material that has insulating properties and holds a certain shape, such as a Mylar sheet. .

Its planar shape is a rectangular shape of an appropriate size, as shown in Fig. 3, and its longitudinal cross-sectional shape is continuous in a ridge shape at a predetermined pitch interval, as shown in Fig. 4. It is formed in an uneven shape. This convex groove portion 13.
! 3. . . , the plurality of lead wires 12, 12 . ...
As shown in FIG. 1, the lead wires 12.12. ... are arranged in a row at predetermined intervals. 1- Individual rows 14, 14 . formed by convex grooves 1:1. ...l! The core wire 15 of the lead wire 12 is attached to the end of the lead wire 12, as shown in FIG.
A notch 16 (see FIG. 1) is formed therethrough.

This notch 16 consists of a hole 16a through which the core wire 15 is inserted, and a slit that guides the core wire 15 from the periphery of the insulating plate 11 to the hole 16a. In addition, -1-
The cutout portion 16 is formed at a position offset to one side of each row 14 as shown in FIG. 3, or on an inclined surface of the convex groove portion 13 as shown in FIG. Also, the side rows 14-, 14. ．． ... At the rear end, as shown in FIG. 3, there is a fixing part 17 for fixing each lead wire 12.
is formed.

This fixing part 17 includes a hole 1.7a through which the outer covering portion of the lead wire 12 is inserted, and a cut 1.7a that guides the lead wire]-2 from the other peripheral edge of the insulating plate 11 to the hole 17a.
7b. Note that the rear end portion of the insulating plate 11 on which the fixing portion 17 is formed may have a planar cross section instead of an uneven cross section.

”-Lead wires 12, 12. . . . connects the coil end of a transformer (not shown) to external wiring. And these lead wires 12, 12 . ... are arranged and fixed in rows at predetermined intervals on the insulating plate 11.

That is, as shown in FIG. 2, the lead wire 12 is positioned in the convex groove 13 on the lower surface side of the insulating plate 11, and the core wire 15 at the tip of the lead wire 12 is inserted into the front end of the row 14. Pass it through the notch 16 and extend it to the -1- side and along the recess adjacent to the row 14, and also insert the jacket portion of the 1- lead wire 12 into the fixing part at the rear end of the row 14. It is fixed to the insulating plate 11 by passing it through the insulating plate 17 and spraying it on the upper surface side. Therefore, each of the above lead wires 12.1.2
．． ... are housed in the convex groove 13 and are fixed in rows at predetermined intervals.

In order to use the lead wire holding plate 10 configured in this way, as shown in FIG. 11 is placed on the insulating plate 11, and the rear end of the insulating plate 11 is wrapped and fixed with an insulating tape 21. . . . core wires 15, 1.5° . . . - connecting ends 22, 22. of the coil 20. All you have to do is connect it with...

FIG. 6 is a plan view showing a first modification of the fixing portion of the insulating plate 11. FIG. In this modification, the lead wire is 12°12. ...
Individual columns 14, 14 .・・Inward notched blades 23.23 are formed on the rear end side wall, and these notched blades 2
3.23 is designed to hold the lower part of each lead wire 12 located in the 1-array 14.

FIG. 7 is a plan view showing a second modification of the fixing portion of the insulating plate 11. FIG. In this modification, the lead wire is 12°12,...
Individual columns 14, 14 . . . . nothing is provided at the rear end, adhesive is applied inside the convex groove 13 of the row 14, and each lead wire 12 positioned inside is fixed with adhesive, or. The lower surfaces of the lead wires 12, 12, .

Although the cross-sectional shape of the insulating plate 11 is shown in FIG. 4 as having a concavo-convex shape that continues in a ridge-like manner, the present invention is not limited to this. It may be formed into

Effects of the Invention As described below, the present invention provides an insulating plate 11 with a cross-sectional shape in which lead wires 12 are arranged in rows at predetermined intervals,
At the front end of each row 14, a notch 16 is formed through which the core JIs 15 of the lead wire 1-2 is passed, and at the rear end of each row 14, the lead wire 12 is fixed for each row. Since the fixing part 17 is formed, the lead wire 12 is arranged along the row 14 of the above-mentioned cross-sectional shape, and the notch part 16 is
By simply passing the core wire 15 through the core wire 15 and fixing the lead wire] 2 with the fixing part 17, a plurality of lead wires 12. +2. ... can be arranged and fixed in a row at predetermined intervals to the insulating plate 11. Therefore, a plurality of lead wires 12 can be inserted into the two holes 3.3 without selecting the two holes 3, 3 in a parallel row and inserting the core wires of the lead wires into these two holes 3.3 as in the conventional method shown in FIG. The work of arranging and fixing them in rows on the insulating plate 11 can be done easily and in a short time, and the workability can be improved. In addition, the requirement for "quality of keeping the distance between the lead wires 1.2, 1.2 constant" can be met reliably and easily.

[Brief explanation of drawings]

17= Figures 1 and 2 are a plan view and a side view showing an embodiment of a lead wire holding plate for a transformer according to the present invention, Figure 3 is a plan view showing an insulating plate, and Figure 4 is a central longitudinal section thereof. 5 is a perspective explanatory view showing the state of use, FIGS. 6 and 7 are plan views showing modified examples of the fixing part of the insulating plate, and FIGS. 8 and 9 are views of the conventional lead wire holding plate. FIG. 2 is a plan view and a side view. 10... Lead wire holding plate 1-1... Insulating plate 12... Lead wire 13... Convex groove portion 14... Row 15... Core wire 16... Notch portion 17...・Fixed part 18...Transformer

Claims (1)

[Claims] An insulating plate having a hardness that can maintain a certain shape is given a cross-sectional shape in which lead wires for the external wiring of the transformer are arranged in rows at predetermined intervals, and the front end of each row is provided with the lead wires. In addition to forming a notch through which the core wire passes, a part is formed at the rear end of each row to fix the lead wire in each row, and the lead wire is fixed to the insulating plate by the notch and the fixing part. A lead wire holding plate for a transformer, characterized in that the lead wire holding plate is arranged and fixed in a row at a predetermined interval.