US1495175A

US1495175A - Apparatus for heat treating metal-coated materials

Info

Publication number: US1495175A
Application number: US558472A
Authority: US
Inventors: Joseph L Herman
Original assignee: Individual
Current assignee: Individual
Priority date: 1922-05-04
Filing date: 1922-05-04
Publication date: 1924-05-27
Anticipated expiration: 1941-05-27

Description

May 27, 1924.

J. L. HERMAN -APPARATUS FOR HEAT TREATING METAL COATED MATERIALS Filed May 4, 1922 coated material during the Patented May 27, 1924.

UNITED STATES 1,495,115 PATENT OFFICE.

JOSEPH L. HERMAN, OF PEORIA, ILLINOIS.

APPARATUS FOR HEAT TREATING METAL-COATED MATERIALS.

Application filed May 4, 1922. Serial No. 558L472.

To all whom it may concern.

that I, JOSEPH L. HERMAN, a citizen of the United States, residin at Peoria, in the county of Peoria and tate of Illinois, Improvements in Apparatus for Heat Treatin Metal-Coated Materials, of which the fo lowing is a specification.

This invention has reference to an apparatus for heat-treating metal coated materlals having preferably an iron base, as for example galvanized wire, the apparatus being particularly designed for heat-treating materials immediately following the galvanizing pperation and b continuous procem.

he apparatus or heat-treating metal coated materials herein described and claimed, discloses one form of apparatus and modifications thereof process of coating and treating materials having an iron base described and claimed in my pplication for patent bearing Serial Number 535,660.

he principal object of the invention is to provide an apparatus for heat-treating metal Be it known ing the same and preferab y immediately upon the material leaving the coating bath in which the material is immersed or thru which the material is moved. By such heattreatment I obtain a coating which will be more resistant to atmospheric rusting and corroding conditions than is ordinary galvanized wire, andwhich will roduce a heavier coated wire and one whlch can be used in wire fabricating machines without causing the coating to crack or flake off as is the case with heavily coated galvanized wire coated by ordinary processes.

The invention has for a further object to provide an apparatus for applying a heavier coating on wire with a shorter immersion in molten zinc than is the casewith ordinary galvanized wire carrying heavier coating and the elimination of the usual wiping mechanism.

That the invention may be more fully understood reference is had to the accompanying drawings forming a part of the description illustrating a preferred embodiment of the invention, in which Fig. 1 illustrates in a more or less -dia-.

grammatic way a continuous galvanizing unit for wire including the annealing furnace, acid bath, flux bath, coating or galvanizing bath and heat-treater;

have invented new and useful coated materla s for practicing the rocess of coat- Figs. 2, 3 and 4 illustrate in a diagrammatic way associated electrical units employed in connection with the heat-treater, illustrating in modified forms different modes of appl ing heat' directly to the preferably immediately upon the material leaving the coating bath.

Like characters of reference denote corresponding parts thruout the figures' No claim is made to the'annealing furnace, the acid bath, the flux bath, or the coating or galvanized bath, separately as individual units, or collectively in combination with each other, as these elements are well known in the art. The invention lies inthe heat-treater and in the combination of the heat-treater with the elements constituting the galvanizing unit.

For convenience the annealing furnace is designated 1, the acid bath 2, the flux bath 3 and the coating or galvanizing bath 4, and in Fig. 1 a wire designated A is shown moving continuously thru the annealing furnace, acid bath, flux bath and c0ating bath, being guided in the usual manner and subjected to the action of the several elements referred to in the manner common to the ordinary galvanizin practice.

The heat-treater as a comp ete unit is designated 5 and includes as I shall point out a suitable furnace for heat-treating the coated material immediately after it leaves the coating bath, and also a means associated with the furnace for a plying electrical heat directly to the coated material. The furnace desi ated 6 may be of'a suitable size, and as a jacent to the coating or galvanizing bath as practice will demand, said furnace being heated by an oil burner 7 or in some other approved or desirable manner and has associated therewith a lead bath 8 in which the lead serving to maintain an even temperature in. the tube thru which thewire A is passed. In the operation of the'apparatus it isthe purpose of the heat-treater to heat the wire in such a manner as will revide the superior coating which I have ully described in my pending ap lication bear ing Serial Number 535,660. il'pon the wire A leaving the coating bath at an approximate temperature of 950 degrees F., and be-v fore the coating pletely set it 1s ment in the tube is subjected to a a tube 9 is preferably submerged,

, scribed the wire is heated by radiation from the surface of the tube thru which it is passing. It is well known that in heating by radiation it is important'that the material to be heated is close to the source of heat,

as the heat radiatedfrom one body to another under black-body temperature conditions is as the fourth power of the distance separating the two bodies; consequently the tube 9 should be as small in diameter as is practical to use as compared with the wire passing thru it. I have found however, in practical experience that it is rather difficult to so regulate the tension of the wire in the tube when a very small tube is used, so as to prevent the wire from striking at different points in the tube in which case spots are formed inthe coating which do not always test out as well as the rest of the coating. I

.can completely obviate this however, by use of larger diameter tubes, but in this case, as I have explained the radiation space is much greater and consequently a longer tube is necessary in order to'transfer the same degree of heat to the wire as would be imparted from a small tube. For these reasons I employ in connection with the furnace an electric means for bringing the wire up to the correct heat-treating temperature. In practice a large tube, except for the length required, is suitable. To obviate the additional lengthof the tube required, I provide an auxiliary heating device, preferably an electrical means including contacts over which the wires pass, said contacts being connected to a transformer or transformers for controlling the direction of the current thru said contacts. In the preferred arrangement of the auxiliary heating means there are provided contacts 10, 11 and 12 connected by suitable wiring with

transformers

13 and 14. The contact 10 is preferably of the sliding type and may be used as indicated in Fig. 1 as a drip-bar at the "outlet end of the coating or galvanizing bath 4. The contact 11 is also preferably of the sliding type and is preferably located at the entrance of the tube 9 of the furnace. The contact 12 is preferably of a roller type as at this point the coating may be more or less in a plastic state and is less injured by a rolling contact than it would be by a sliding contact. The contact 10 is shown connected by a wire 15 with the transformer 13; the contact 11 is connected with the transformer 13 by a wire 16 in which is a switch control 16*, and the two

wires

15 and 16 are connected by a switch control wire 1?. The contact 12 is'connected by a wire 18 with a transformer 14 and the two transformers are connected by a wire 19. The circuits between the several contacts and the transformers are only complete when a wire A is in contact therewith. As will be understood the transformers are suitably wiredto allow varying amounts of current to pass thru the wire A by means of regulating switches, not shown, and which are Well understood.

In Fig. 1 the switch 16 is closed and the switch 17 is open and as shown the current will flow from contacts 10 to 11 and from 11 to 12 and then alternately from 12 to 11 and 11 to 10 applying the electric energy for heating the wire alternately between these points, the two transformers being in use. By the use of the two transformers I am enabled to get the result shown in Fig. 1 and also the modified results shown in Figs. 2, 3 and 4.

In Fig. 2 the transformer 13 is not in use, the switch 16 is open and the switch 17 has been moved to complete the circuit between the

wires

15 and 16, wherein the electric energy is supplied only thru the transformer 14. In this figure the current flows alternately thru contacts 10 to 12 and 12 to 10 as will be understood.

In Fig. 3 the transformer 14 is not in use and therefore the current flows alternately from contacts 10 to 11 and 11 to 10.

In Fig. 4 the transformer 13 is not in use, the switch 17 is open and therefore the current will flow alternately from contact '11 to 12 and from 12 to 11. By the foregoing arrangement it will be seen that heat may be applied by electrical energy directly to the coated wire A between the contact points 10 and 11 just prior to the wire entering the furnace; or directly to the wire between contact points 10 and .12, simultaneously with the heat-treatment of the wire within the furnace, or between the contact points 11 and 12 within the furnace without preheating before the wire enters the furnace.

As previously stated it is preferable to use a largetube in the .heat-treater and I therefore associate with such a structure an auxiliary electrical heating means, by means of which the heat-treating temperature may be quickly reached without having recourse 'to the longer tube.

In Fig. 1 I have shown in dotted lines an enclosure 20 located between the contact comprising an open ended single heat-treat ing unit arranged to heat-treat the. material by radiation, and other means for applying heat directly to the material.

2. An apparatus for heat-treating metal terial by radiation, and electrical means for applying heat directly to the material.

3. An apparatus for heat-treating metal coated materials, comprising a heater including means for applying heat to the material by radiation, and electrical means for applying heat directly to the material 'precoding the action of the heater.

4. An apparatus for heat-treating metal coated materials before the coating has set, comprising an open ended single heattreating unit arranged to heat-treat the material by radiation, and means for elec trically applying heat directly to said material' coincidentally with the application of the heattreating by radiation, said electrical means arranged for imparting electric energy to the material alternately from opposite ends of the heat-treater.

An apparatus for heat-treating continuously moving metal coated materials having an iron base before the coating has set, comprising an open ended single heattreating unit arranged to heat-treat the material by radiation, electrical contacts at opposite ends of the heater with which the material engages, a transformer, and electrical conductors connecting said contacts with said transformer.

JOSEPH L. HERMAN.