Part 2

Part 2

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Method 3. When it is desirable to make the plate and handle support all in one piece, it may be done in any one of three ways. First. By allowing enough metal in the center of the plate to form the handle support as at Figure 12. Second. By allowing metal at the top of the plate to bend over handle as at Figure 11. Third. By allowing metal at the sides to be turned up at right angles to the plate to form the support as at Figure 13. In this case holes are drilled in the side pieces and a rivet is put through from one side to the other to hold the handle. For this one the handle must be either bent around the rivet or drilled to receive the rivet. In all three of these cases the plate is fastened to the door or drawer by nailing or riveting.

HINGES.

Plate 13, Various outlines of the same hinge.

Plate 14, Hinges of same outline with interior variations.

Plates 15, 16, 17, b.u.t.t and Strap Hinges.

In a hinge, the joint is the important feature. The size of the hinge, the strength required, and the decoration must also receive attention.

After these have been determined, a drawing should be made giving a development of the joint. Whatever the size of the hinge, the following principle in regard to the joint must be kept in mind. There must be alternating projections left on the inner ends of each leaf of the hinge to fit into one another so that the pin may pa.s.s through them and allow the hinge to swing. The method of making these projections is determined by the size of the hinge.

In hinges of any considerable size, the projections are left attached to the hinge proper; in allowing for them there will be an even number on one leaf and an odd number on the other. To obtain the strength desired, the width of the projections on one leaf should equal the width of the projections on the other leaf. This applies to any number of projections. Their length should be determined by the diameter of the joint, three times the diameter is the approximate length.

In making small hinges the projections may be bent into position by the use of the round nose plyers. In larger work the projection is fastened in the vise and beginning at the end is bent around the pin a little at a time using the raw-hide mallet to work it into shape.

For small joints or hinges, such as would be used on a match box, stamp box, bon-bon box, or ink pot, the joint should be made of small tubing as described on page 100. This tubing is sawed into the required lengths and soldered to the leaves to be hinged. The parts to receive the joint are sometimes filed out.

[Ill.u.s.tration: PLATE 13. HINGES]

[Ill.u.s.tration: PLATE 14. HINGES]

[Ill.u.s.tration: PLATE 15. HINGES]

[Ill.u.s.tration: PLATE 16. HINGES]

[Ill.u.s.tration: PLATE 17. HINGES]

Chapter IV.

FINGER PLATES.

The finger plate used on the edge of a door to receive the wear of the hand serves as an excellent exercise in sawing and filing. The design is transferred to the metal by use of carbon paper. The sawing is done as in the escutcheon. The surface may be left smooth or it may be gone over with a hammer having a face somewhat rounded. If the design calls for any repousse work, it is done as described on page 64.

[Ill.u.s.tration]

[Ill.u.s.tration: PLATE 18. FINGER PLATE]

[Ill.u.s.tration: PLATE 19.]

PAD CORNERS.

Desk pad corners while not difficult to make, are very useful as well as ornamental. The design may be carried out in any one of three ways: pierced, embossed or enameled.

In making the pattern for the pad corner, an allowance must be made for the thickness of the pad, as at A, and also for laps as at B, that are to go under the pad to hold the corners in place. The corner may be riveted to the pad at the back or the laps may be bent in such a way as to clamp them to the pad, and permit of their removal at any time.

When the design has been pierced or embossed, the laps can be bent over a piece of metal equal in thickness to that of the pad. If the design is to be carried out in enamel, all bending must be done before enameling as any expansion or contraction of the metal will crack the enamel.

[Ill.u.s.tration: PLATE 20. PAD CORNERS]

BOX CORNERS.

Box corners serve primarily to protect the corners of the box and to increase its strength, but they can be so made that they give character to the box. The corner should be designed to suit the particular box or chest to which it is to be applied. The method of making a box corner is slightly different from those previously described. After the design has been drawn, a pattern made from it in heavy paper will be found helpful, for this pattern may be used to mark out the design on the metal. In this way irregularities in the design are less likely to occur than when the design is transferred with the carbon paper directly to the metal.

The decoration may be pierced or embossed, according to one's choice.

After the sawing or embossing has been done, it should be filed carefully and smoothed up with fine emery cloth to do away with crude and sharp edges.

The holes for the rivets are then drilled and the burr that is made by drilling is removed with a larger drill. The two edges, A A. Plate 21, that are to come together when in place on the box should be beveled a little so that they will form a better corner. After this is done, the sides are bent down over a block of wood or metal placed in the vise. A rawhide hammer should be used to avoid marks on the face of the corner.

In this as in other work, if it is desired that the metal have a hammered surface, the effect must be given before the design is cut out.

Suitable rivets are next made as described on page 98 and ill.u.s.trated on page 99. After being colored or polished the corner is ready to be applied to the box.

[Ill.u.s.tration: PLATE 21. BOX CORNERS]

[Ill.u.s.tration: PLATE 22. BOX CORNERS]

STAMP BOXES.

Stamp boxes may be made in various ways, three of which are described below:

Box No. 1 and 2, Plate 23.

On a piece of 20 gauge metal, lay out or draw the pattern as shown on the plate; first with pencil, then with a scratch awl to insure permanency, going over the lines lightly on the metal. By the use of a saw frame and a No. 3 saw the corners of the square are cut out.

[Ill.u.s.tration: FIGURE 18.]

The edges that form the corners are next filed up, keeping all edges straight and at right angles; after this, the edges are beveled a little, forming a mitre which, when soldered, makes a better joint than otherwise.

The sides are next bent up over an iron block placed in the vise as at Figure 18. The corners should be brought well together, using a rawhide hammer, No. 1, Plate 2.

[Ill.u.s.tration: PLATE 23. STAMP BOX]

A piece of iron wire about No. 24 is then placed around the box and twisted tight enough to hold the corners in place while being soldered, Figure 19. Borax and solder are next applied and the soldering done as described on page 63. In this case, however, all of the corners should be prepared at the same time for soldering. If but one corner is prepared and soldered, the heat necessary for soldering causes the copper oxides to come to the surface at the other corners which must be removed before they can be soldered. This is remedied by coating with borax and placing the solder at all corners before applying any heat.

[Ill.u.s.tration: FIGURE 19.]

[Ill.u.s.tration: FIGURE 20.]

After the soldering is done the box is pickled. Surplus solder is next removed by filing. The box is again placed over the iron block which is held in the vise; the corners and bottom edges are squared up, using the round end of hammer shown at No. 2, Plate 2, and the top is filed off level. This completes the body part of the box.

The cover is made in the same way as the box. Much care must be taken to have the pattern carefully and accurately drawn so that when the cover is finished it will fit closely to the body. The design, if there is any, whether it is embossed or enamelled, must be carried out before cutting it to size.

Box No. 2, although of different proportion, is made in the same way as No. 1.

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