US2679823A

US2679823A - Wire coating apparatus

Info

Publication number: US2679823A
Application number: US219860A
Authority: US
Inventors: Robert H Denham
Original assignee: General Electric Co
Current assignee: General Electric Co
Priority date: 1951-04-07
Filing date: 1951-04-07
Publication date: 1954-06-01
Anticipated expiration: 1971-06-01
Also published as: NL85924C; NL168609B

Description

June 1, 1954 R. H. DENHAM 2,679,823

WIRE COATING APPARATUS Filed April '7, 1951 Inventor: Robert H..Denham,

His Attorney.

Patented June 1, 1954 2,679,823 WIRE COATING APPARATUS Robert H. Denham, Scotia, N. Y., assignor to General Electric Company, a corporation of New York Application April 7, 1951, Serial No. 219,860

Claims. (Cl. 118-405) This invention relates to apparatus for coating wire and, more particularly, relates to a frictionless seal through which a wire to be coated may be introduced into a bath of coating material contained in a holding receptacle therefor.

At the present time, it is common practice to apply a coating of insulating material to a wire by drawing or pulling the wire vertically upward through a bath of the coating material. The wire is introduced into the bath through an opening in the bottom or base of the container, which opening must obviously also serve as a seal, so that the coating material will be retained in the container. Several types of seals have been employed to serve this function. For example, one of the simpler types has comprised a pierced rubber diaphragm which more or less hugs the wire as it passes therethrough, and thus serves to hold the liquid coating material within the container or receptacle. Another version of this type of seal is a gland with some appropriate stufling material and an adjustable nut. However, these types of friction seals are in most cases objectionable in that they possess a wellknown disadvantage. In the case where polytetrafluoroethylene dispersion or suspe'nsoid, for example, is employed as a coating material, the dispersion coagulates in the area of the seal and precipitates out, usually as a small conical deposit around the wire immediately at the point of emergence from the seal. This cone tends to build up in size and periodically a slight protrusion on the wire picks up the cone, and it thereafter appears on the wire as a sizable bump. Wire thus coated, of course, cannot be tolerated and must be rejected. Attempts to prevent coagulation by eliminating the friction have been undertaken by providing an opening slightly larger than the wire or strip to be coated, which opening interconnects the space within the container or receptacle with another and smaller chamber below filled with a non-coagulable liquid, which must be miscible with the coating material. This liquid is retained in the lower chamber, however, by a friction-type diaphragm or stuffing-box arrangement through which the wire is drawn as it is pulled upwardly through the lower chamber, the opening leading into the main container and through the coating material therein. In addition, an elevated tank filled with the liquid is interconnected with the small chamber to provide a head so that the coating material will not flow through its bottom opening into the lower chamber and thereby coagulate at the bottom friction seal thereof. The liquid in the lower chamber must be miscible with the coating material since it will tend to be carried by the moving wire and, due to the head pressure, into the main receptacle. Aside from the fact that the liquid must be miscible with the coating material and must be periodically replenished,such an arrangement is complex, involves a number of parts to be maintained, and is relatively costly.

It is, therefore, an object of this invention to provide an improved and relatively simple seal for an opening in the bottom of a receptacle containing a liquid wire coating material.

It is a further object of this invention to provide a frictionless seal to retain liquid coating material in a container and through which a wire to be coated'may be introduced into the container without frictional engagement with the walls thereof, and without any loss of coating material therefrom. h

The invention will be better understood from the following description taken in connection ,with the accompanying drawing, and its scope will be pointed out in the appended claims. In the drawing, the single figure illustrated shows a cross-sectional view through a container or receptacle l0 containing a liquid bath of a coating material H such as polytetrafluoroethylene for the insulation of wire such as l2. In practice, the wire i2 is drawn upwardly through an opening in the bottom l3 of the container, through the bath H,'whereby a thin layer I 4 of the coating material is picked up by and thus supplied to the wire, after which the wire passes through an oven, not shown, then over a driving sheave l5. From the driving sheave I5, the

wire is either recirculated through the coating.

material to receive additional layers thereof, or is wound on to a take-up reel. In accordance with the invention, the opening in the bottom,

of the container comprises a cylindrical passageway I 5 in communication with the exterior of the receptacle and otherwise terminating in wardly in an enlarged recess I! in the inner surface of the container. To plug or seal oif the opening and thus prevent loss of the coating material therethrough, the recess is filled with a fluid 18, such as mercury, which is immiscible with the coating material and has sufficient weight or density to be retained in the recess. The portion l6 of the opening is sufiiciently large to accommodate several sizes of wire with suitable clearance, so there will be no friction or rubbing action between the wire and the walls of the opening in the presence of the coating ma. terial. 0n the other hand, the portion is must 3 be sumciently small so that the pool of mercury will not tend to flow therethrough or will be retained in the recess by virtue of its high surface tension characteristic. As a practical example of the relationship between a suitable size passage to the wire size, a passage 16 having a diameter of .032" has been employed to accommoderate wire ranging in size from .002" to .016 diameter. Although the upper portion or recess H in this case happens to have a diameter of it will be obvious that both the diameter and depth of this portion of the opening may vary within wide limits so long as there is no frictional engagement between the wire and the walls of the opening. It will be apparent that the mercury affords no rubbing action to precipitate the coating material in direct engagement or contact therewith, so that a seal has hereby been provided to retain the coating material,

which seal is frictionless and requires no other structure such as a diaphragm or a stufiing-box arrangement.

While I have, in accordance with the patent statutes, shown and described a particular embodiment of my invention, it will be obvious that changes and modifications can be made without departing from the invention in its broader aspects and I, therefore, aim in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of the invention.

What I claim as new and desire to secure by Letters Patent of the United States is:

1. Wire coating apparatus comprising a receptacle containing a bath of liquid coating material and having an opening through the bottom wall thereof, and a pool of mercury disposed within said receptacle adjacent said opening and sealing ofi the inner end thereof, said mercury being immiscible with and having a density greater than the density of said coating material,

said opening being sufiiciently large to permit free,

passage of a wire therethrough without engage ment therewith and sufficiently small to prevent flow of said mercury therethrough.

2. Wire coating apparatus comprising a receptacle containing a bath of liquid coating material, the bottom of said receptacle having a recess in the inner surface thereof in communication with a restricted opening extending through said bottom to the exterior of said receptacle, and a frictionless seal to prevent flow of said coating material through said opening comprising a pool of mercury occupying said recess, said mercury being immiscible with and having a density greater than said coating material.

3. Wire coating apparatus comprising a receptacle having a bottom and side walls for holding a bath of liquid coating material, said bottom wall having a passage therein in communication with the exterior of said receptacle and terminating in an enlarged recess in the inner surface of said bottom wall, a pool of mercury being immiscible with and having a density greater than said coating material occupying said recess below said coating material, said passage being sufiiciently large to permit free passage therethrough of said wire and sufliciently small so that the surface tension characteristic will retain said mercury in said recess, and means for drawing said wire through said passage, said mercury and said bath of coating material.

4. Wire coating apparatus comprising a receptacle having a bottom and side walls for holding a bath of liquid coating material, said bottom wall having a cylindrical passage therein having a diameter of 5" in communication with the exterior of said receptacle, and terminating in an enlarged cylindrical recess having a diameter of in the inner surface of said bottom wall, a poo1 of mercury occupying said recess, and coating material bath of polytetrafiuoroethylene dispersion immiscible with and having a density less than said mercury re.- tained in said receptacle by said pool of mercury.

5. Wire coating apparatus comprising a receptacle having a bottom wall and side walls, said bottom wall having a restricted passage therethrough in communication with the interior and the exterior of said receptacle, said passage being sufiiciently large to permit free passage therethrough of a wire to be coated, a pool of non-coating sealing fluid at the bottom of said receptacle surrounding the wire where it enters the receptacle from the passage, and a bath o1. liquid coating material with which said wire is to be coated after it passes through the sealing fluid and lying above but in surface contact with said fluid, said sealing fluid having a greater density than said coating material and being immiscible with it, whereby said sealingfluid is retained at the bottom of the receptacle beneath the coating material while the wire passes upwardly through the receptacle, and said sealing fluid further having a surface tension relative to the size of said passage and the size of wire to be coated sufiicient to prevent egress of the sealing fluid from the receptacle through the:

passage, whereby said fluid forms a seal permitting substantially frictionless entrance of the wire into the bath of coating material while preventing loss of coating material through the wire entrance passage.

References Cited in the file of this patent UNITED STATES PATENTS