US1669005A - Heating element for tempering machines - Google Patents

Description

May s, 1928. 1,669,005

.P. HUSTADT ET AL HEATING ELEMENT FOR TEMPERING MACHINES Filed April 28. 1927 2 Sheets-Sheet 1 May 8, 1928. 1,669,005

P. HUSTADT ET AL HEATING ELEMENT FOR TEMPERING MACHINES Filed April 28, 1927 ZShjeets-Sheet 2 1'02 Paul E ma m z ma the heatilg Patented May 8, 1928.

UNITED STATES mun nusmm AND KARL HUSTADT, OF BEMSCHEID-HASTEN, GERMANY.

HEATIHG ELEMENT FOR TEMPERIN G MACHINES.

Application filed April 28, 1927. Serial No. 187,324.

This invention relates to a process of tempering and straightening saw blades, plane-knives, paper cutters and similar relatively thin tools by the simultaneous application of pressure and heat, and to the apparatus' for performing this process.

This application is a continuation in part of our c'opending application Serial No. 650,694, for improvements in method and machine for tempering saw blades, plane-x knives and similar tools,

filed July 10, 1923. This invention aims to provide for heating the saw uniformly and graduallg to a suitable degree for obtaining the esired tem er in. the various portions of its area. This invention further aims to improve upon the details fi construction ofsaw tempering machines of the electrically heated t e.

l ft will be understood that other advantages within the scope of themain aims, will be inherent in other forms of the invention suitable for various poses of the same general nature. a

. The objects and advantages of our invention will be apparent from the accompanying drawings and description, wherein we have shown, by way of illustration but not of limitation, certain preferred forms embodying the principles of our invention. For convenience we have illustrated the invention applied to a press of the type embodied in our British Patent No. 218,822 of July 17, 1924.

In the accompanying drawings, wherein the same reference characters are used for same parts of all figures: ig. 1 is a cross-section, taken on line 1-1 in Fig. 2, of the opposed pressure and heating elements;

Fig. 2 is a partial plan view oftho outer surface of the movable heating and pressure element;

Fig. 3 isa diagrammatic plan of an arrangement of heating elements suitable for 7 three phase current;

Fig. 4 discloses an arrangement of the heating elements which is suitable for either direct current or single phase alternating current;

Fig. dis a plan view 'of a segmentof :1

element with ,the outer insulation omitt I r Fig. 6 is a longitudinal section, in elevation, of the same, omitting the end connectors;

specialized purstruction, as,-

Fig. 7 shows a heating element joint in the first step of formation, and

Fig. 8 shows the same joint completed;

Fig. 9 is a cross-section of a portion of a press assembly plate,

Figs. 10, 11,12 and 13 are diagrams of electrical circuits and connections;

In the form of our invention illustrated in our copending application, Serial No. 650,694, and in our British Patent N o. 218, 822, we employ two pressure plates adapted to clamp between thema saw blade, or other article to be tempered and straightened by the simultaneous application of gradually increasing pressure and uniformly controlled eat.

Referring to Fig. l of the drawings, the plate assembly 11 isintended to be relatively stationary,'thelate assembly 12. being 'mov able relatively t ereto by the screw 6. These plate assemblies are capable of use in a frame of the general character shown in our British Patent and our copending United States application, both referred to above. Each assembly comprises aplate 14 of heavy confor example, cast iron, hereafter called the pressure plate, recessed on the front to receive electric heating elements shown generally at 15, faced over by aheating plate 16.

The inner surface of each pressure plate showing a binding post p 1n longitudinal section;

carries alayer 17 of asbestos or other suitable heat retarding material. Between this asbestos and theheating plate 16 the electric heating elements, generally indicated in Fig. 1 by the reference character 15, are arranged in concentric rings. as shown more particularly in Figs. 3 and 4:, wherein each heating ring is indicated by its own reference character. The details of construction of these heating rings are such that they are capable of withstanding the working pressures employed, hence they can be used as compression members of the plate assembly. This gives the added advantage of avoiding 'any gap between the rings and theface plate 16. obtained.

The concentric arrangement of our heating elements permits the distribution of heat to be controlled according to desired areas,

so that high thermal efliciency is particularly from the center outward. In

practice the rings are usually from 40 to 50 mm. wide, with intervening spaces of about 10 mm. No grooves are provided for the at 35. 1 The-rings in Fig.

rings, the interior surfaces ofplates 14 and 16 being flat. This arrangement is well adapted to segmental subdivision of the heating area,-w'hich may be advantageous in. connection w th the replacement of parts' and the arrangement of the electrical circuits.

i Figs. 3 "and 4 show the concentric arrangement oftherings 21 to 26 and 21 to 26, inclusive, respectively. Each ring 'is divided into'arcuate sections containing equal numbers of degrees, to permit easy replacement of damaged parts. The junctions of the several arcs are preferably on colmnon radii. The ringsin Fig. 3 are shown composed of arcs of 120 each for the reason that this figure is for a three-phase current. Each of these arcs may be mechanically subdivided into shorter sections in order to minimize the replacement necessary in case of damage. The )ullOtlOlls of such SllbdlVlSlOllS are shown The details of construction of the heating elements are best seen in Figs. 5 and 6.

,Each element consists of a flat mica core .51 around which 1s wound ares stance wire 52 of cross section and length appropriate to the current and temperature. Wire of high 1 specific resistance and high meltingpoint,

at high temperature,

and capable of withstanding great pressure is necessary since the pressure is transmitted directly through the heating element. We have found chromenickel, Kruppen or Rheotan satisfactory.

As shown in Fig. 6 the heating element is electrically insulated bymica strips 53 and 53 on the exposed sides. Thermal insulation on the side towards thepressure plate 14 is provided, preferably by asbestos as shown at 17 Fig. 1.- Ve have found mica tov be the most satisfactory substancefor electric insulation since it possesses mechanical strength to withstand the necessary pressure at the temperatures reached, without electrical failure. hiica does not disintegrate below 600 3., whue'the maximum temperature employed in our process 18 -about 425 C. for the usual grades of steel. In practice 1t has 7 been found that heating elements se constructed are capable of withstanding 'aipressure of one hundred atmospheres. I I

4 are designed or perhaps less; 'It will of' may The preferred method of joining the me- 'chanical sections of the heating rings is seen 1n Flgs. 5, 7 and 8. Theresistance wire 52 is connected in anysuitable manner at each end with acontact element 54, preferably of German silver. Each contact element occupies the opposite half of its respective end,

so that sections of equal curvature are inter- NVe have found that the most changeable. satisfactory junction is made by wrapping the opposed complementary ends with a 55 as illustrated by Figs. 7 and 8.

metal strip When subjected to the heat and pressure of operation these strips form a secure contact which prevents arcing but which can be readily broken by unwrapping the strip.

In apparatus of this nature difficulty is frequently encountered in securing satisfac tory binding post connections for the outer leads. Ve have obtained good results with the form of construction shown in Fig. 9.

be binding posts are hollow bolts brought out through. suitably locatedholes 61, Figs. 2 and 9, in thepressure plate 14, being insulated from the late14 by mica sleeves 62, Fig. 9, suitably with mica washers, at top and bottom, to conform respectively end of the bolt and to ametal washer 63 be low the usual. connecting nuts 64: on the outer end; In order to maintain firm contact between the bolt and themetal end 54 of its flat head 66 on its. inner end, Fig. 9. The outer -end of this stud' is provided with means to engage a turning tool, for example, a screw-driver slot 67 whereby the head 66 be set up against themetal end 54 of its associated heating element. Thus, the internal contact may be tightened without disturbing. the binding nuts 64:.

Another important feature of our inven-.

tion is the method of controlling temperature so that heat may be-applled to the article'uniformly and gradually, preferably from the center outward.

The detailed connections and arrangements of the electrical .circuitsfor accomplishing this end will be vam'edaccording to the form of the article and the character of the current employed. Ve describe below typical arrangements which have been found satisfactory in practice with the currents and voltages most frequently inct with,

namely, three phase alternating current.

single 'pl ia se alternating current and direct current preferably at voltages of 110, 220 or. 380. It will be understood that we present these'circuits as illustrative. and not as limiting. Other suitable modifications which providefor accurate ten-iperature control of heat as desired .for the particular arared, or provided:

to a head on the inner with the gradual flPPllCZItlOll associated heating element," the hollow center f of the bolt is internally threaded to engage a stud G5, correspondingly threaded, having acircuits shown in Fig.

tiele are within the purview of our invention.

While it is desirable in tempering circular articles, such as the cutting disks described in our copending application Serial No. 133,724, that individual temperature control be provided for concentric zones from the center outward, it is not absolutely essential that each heating ring been a sep arate circuit. We have found that satisfactory results are obtainable with simpler apparatus by havin the innermost and outermost rings individually controlled, while the intermediate rings are connected in alternate pairs. Such an arrangement is seen in Fig. 11 where we have shown, by way of example, six heating rings 71 to 76 inclusive, rings 76 and 71 being each separately controlled, as by rheostats 710 and 760 r spectively, while rings 7274 and 7375 are controlled in pairs as byrheostats 72+ and 735, respectively. An.ammeter 79, afuse 77 and a'cutout 78 will be provided fol-each circuit. A pair of main leads are shown at 81. It will be understood that Fig. 11 is merely diagrammatic of this aspect of our invention and the principles which it illustrates may be ap lied to arrangements having varying nunibers of connection, for example,,the three wire system of Figs. 3, 12 and 13 and the two wire system of Fig. 4.

- Control of the heat may be obtained both by means of a rheostat in each of the heating 11, and by switchin each circuit into either series or paralle connection with the corresponding circuit on the opposed heating plate, as shown diagrammatically represents a single heating circuit in the plate assembly 11, Fig. 1, for example, theinner ring 76 of Fig. 11, while 76' represents the corresponding circuit on theopposite plate assembly 12. The leads are shown at 83 connected with asuitable switch 84 to make either parallel or series connection. As in Fig. 11, each circuit in theupper plate 12 carries anammeter 79, afuse 77, a rheostat and acutout 78 and each circuit in the lower plate 11 is similarly equipped the corresponding elements being designated as 79, 77, 70 and 78, respectively. Where a pair of rings such as 7274, Fig. 11, is controlled as a unit, this unitary pair may be connected in series or parallel, selectively, with the correspondin pair on the opposed plate. It will also understood that Figs. 10 and 11 do not represent alternative circuits, but show different features which are to be used in conjunction in situations where the system of wiring permits it. In using a wiring system which is not adapted to series connection, of course no arrangements for series switching will be necessary.

.the circle being represented at be understood that in Fig. 10. In Fig. 10, 76 fi Each heating ring will be connected in a manner appropriate to the type of current utilized, for example, a two wire system will require only a single pair of connections for each ring, as illustrated in Fig. 4.

In a three wire system either the delta or star connection may be used for the coils of each heating ring. Fig. 12 illustrates a.

delta arrangement of the resistance coils in a single heating circle, the individual coils of 91, 92 and 9:3 and the conductors at 94, 95 and 96. Fig. 13 similarly illustrates astar connection. In this figure the coils of the circle are designated as 101, 102 and 103, and the conductors as 104,105 and 106. Connections to the neutral points are shown at 107 and 108, this point being rounded at 109.

-While we have illustrated and described herein arrangements of heating elements adapted for use in circular presses, it will the principles of our invention are equally applicable to presses of otherforms such as may be necessary to give final temper and shape to noncircular articles.

For measurementof the current and temperatures, suitable instrument-s will be appriately placed in each circuit. The degree of accuracy necessary for satisfactory operation of the process may be attained with instruments of the types illustrated.

The article to be treated is clamped betweenplates 11 and 12, Fig. 1.' Usually this article, for instance, a circular saw blade, will be warped as well as improperly tempered. At first sufiicient pressure is a plied by the screw 6 merely to hold the blade rmly. Current is now turned on all the heating rings of both plates. As the blade yields to the heat, the pressure is gradually increased, for flattening. The ammeter ,readings for all circuits are closely watched.

When these readings indicate that the center has reached the desired temperature, the current in the inner rings, is reduced, or these rings cut out, as necessary. The intermediate and outer circuits are also regulated carefully to the end that the blank will be subjected to a uniformly graduated rate of heating referabl progressing from the center to t e perip ery. It is important that no part 0 the blank be at any time subjected to a greater heat than to which it is to be subjected at the conclusion of the treatment; and it is desirable that every rtion of the blank should reach its proper al temperature at the same instant. When this final temperature is reached, the treatment should be immediately discontinued; otherwise the' blank may be injured. In stopping the treatment it is important that all portions of both sides of the blank be released simultaneously from the heat and pressure, to avoid uneven moscription that among lecular structure. Such release may be eflz'ected byhavingthe plates 11 and 12 in a substantially vertical position at the end of the process, whereby when theplate 12 is quickly backed away by the screwG the blank witl fall away from both plates simul taneously.

It will be seen from the foregoing dethe advantages of our invention are the provision of a mechanical and electrical arrangement of heating elements such that heat uniformly and accurately controlled may vbe applied to the blank under treatn'ient, preferably gradually from the center outward; the provision of such heat control that selected portions of the blank may be subjected to such temperature conditions as circumstances render advisable, and the provision of heating elements whose mechanical construction will localize possible damage and permit the replacement of injured portions without disturbing others; said heating elements being of strength sutiicient to withstand directly the compression stresses of the press members.

\Ve claim: j

1. In a tempering and straightening press, a plurality of compression-transmitting concentric electric heating elements, each of said elements being divided mechanically into a plurality of removable sections, and means engaging the adjacent ends of alining sections to secure them in electrical contact.

2. In a tempering and straightening press having a plurality of compresslon-transmitting concentric electric heating elements each comprising a wire-wound mica core and mica insulating plates on each outer side, means for independently securing said heating elements in said press, and means for electrically connecting the ends of said heating elements. v

3. In a tempering and straightening press, a plurality of compression-transmitting concentric electric heating elements. each of said elements divided mechanically into a plurality of removable sections, said sections being joined by opposed complementary end contacts.

4. An electrical heating element resistant to crushing, comprising, in combination, an elongated narrow fiat core of electrically non-conducting material capable of resist ance to crushing strains while hot, aresistance winding thereon, elongated narrow flat strips against the external sides of said winding, said strips being constituted of material having characteristics similiar to said core, and electrical contact members of similiar shape, "symmetrically but oppositely disposed "on the opposite ends of said element.

5. In a tempering and straightening press, a plurality of conipression-transmitting concentric electric heating elements, each of said elements divided mechanicall into a plurality of removable sections, sai sections being joined by opposed complementary end contacts wrapped about witha metal band.

6. In a tempering and straightening press, a plurality of compression-transmitting concentric electric heating elements in combination with a hollow internally threaded binding post having a movablestud through its center coiitacting the said heating elements.

7. In a tempering and straightening press, two opposed sets of electric heating elements, each of said sets comprising concentrically arranged members on circuitsseparate from the other members of said set, each of said circuits including the corresponding opposite members of each set.

8. In a tempering and straightening press, two opposed sets of electric heating elements, each of said sets comprising concentrically arranged members on circuits separate from the other members of said set, each of said circuits including the corresponding opposite members of each set, said circuits including means to connect said opposite'members in parallel or in series as. desired.-

In testimony whereof, we have signed our names to this specification.

PAUL HUSTADT. KARL HUSTADT.

Images