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Publication numberUS3823293 A
Publication typeGrant
Publication dateJul 9, 1974
Filing dateJul 2, 1973
Priority dateAug 2, 1972
Publication numberUS 3823293 A, US 3823293A, US-A-3823293, US3823293 A, US3823293A
InventorsC Gilliatt
Original AssigneeRaytheon Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Dielectric heating apparatus
US 3823293 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)

States atent [191 Gilliatt Related US. Application Data [62] Division of Ser. No. 277,463, Aug. 2, 1972, Pat. No.

[52] US. Cl 219/1041, 219/108], 425/41 [51] Int. Cl. lllb 5/00, H05b 9/00 [58] Field of Search 219/1055, 10.81, 10.41;

[56] References Cited UNITED STATES PATENTS 2,451,992 /1948 Grotenhuis .1 425/41 Primary Examiner-.1. V. Truhe Assistant Examiner-Hugh D. Jaeger Attorney, Agent, or Firm-Edgar O. Rost; Harold A. Murphy; Ioseph D. Fannone TO TANK I TO HIGH FREQUENCY [111 3,823,293 July 9, 11974 A method of and apparatus for heating moldable articles, such as pneumatic rubber tires, is disclosed utilizing an inner expandable bladder having an electrically conductive fluid, such as mercury, salt water, or woods metal. A source of high frequency energy in the range of, illustratively, from 1 to 60 megahertz is coupled between the conductive fluid and the metallic tire vulcanizing apparatus to rapidly heat the inner casing wall surfaces to the desired curing temperatures. A second outer bladder conforming to the casing walls contains a high dielectric constant low thermal loss fluid, such as silicone oil. The inner bladder is contoured to provide a greater volume of such fluid adjacent to the thinner sidewalls and thereby expose the heated conductive fluid closer to the thicker tire tread region. The heating field strengths are thereby distributed substantially uniformly in all parts of a moldable article having a nonsymmetrical cross-sectional configuration and it is maintained in the desired shape during heating.



HIGH FREQUENCY SOURCE ENERGY CONTROLS v 1 DIELECC ATING PTIJS This is a division of application Ser. No. 277,463 filed Aug. 2, 1972 now Pat. No. 3,770,931, issued Nov. 6, 1973.

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to the heating of moldable articles by high frequency electromagnetic energy. 2. Description of the Prior Art Dielectric heating utilizing high frequency alternating fields has found wide acceptance in the treatment of inherently poor thermal conductors, such as paper, wood, leather and rubber articles. For the purposes of the present application the term high frequency is defined as electromagnetic energy in that portion of the spectrum having frequencies of under 60 megahertz. Numerous sources are known in the art including vacuum tubes and the energy is typically coupled to the article by conductive electrodes. In the utilization of such energy typically a nonsymmetrical and nonhomogenous mass is presented to the oscillating fields. The'dis- 4 tribution of the electromagnetic energy within the product, therefore, becomes a function of the varied dielectric constants of the load as well as the power factor. This latter characteristic represents the amount of current which will flow through the mass and produce a heat loss. In the dielectric heating art the dielectric constant value and power factor are multiplied to obtain a measure of total loss. It is evident, therefore, that the physical properties of the materials as well as distribution of the oscillating fields is of primary consideration in dielectric heating applications.

One product which is an inherent poor thermal conductor is the pneumatic tire which is typically cured at elevated temperatures by steam or other means at temperatures of above NWT. During the curing cycle the mold is heated and steam under pressure is generally applied within the tire casing walls by such means as a bladder of rubber or the like. The tire vulcanization process is time consuming and involves expensive and cumbersome apparatus. Such moldable article has a nonsymmetrical cross-sectional configuration with thin sidewalls and a'thick tire tread region defining a substantially hollow interior. The variation in crosssectional dimensions leads to problems with uniform heat distribution during the curing cyclefThe search,

therefore, for new and improved methods and appara- SUMMARY OF THE INVENTION In accordance with the present invention a method and apparatus for dielectrically heating moldable articles is provided with uniform distribution of the high frequency electromagnetic energy in all parts involving the use of expandable bladder members with two types of fluids. An inner expandable member contains an electrically conductive fluid and an electrode from the high frequency energy source is connected directly to the fluid. Surrounding the inner bladder member is a second outer expandable bladder member containing a high dielectric constant low loss fiuid. The inner member is contoured to provide a greater volume of low loss fluid and thereby space the conductive fluid further away from the thinner sidewalls, for example, a pneumatic tire. The greater concentration of heat is, therefore, directed toward the thicker tire tread portions where the wall thickness is substantial. The fluids may also be heated to assist in curing times. The distribution of heating energy fields is maintained uniform throughout the curing cycle.

The invention is readily adaptable to existing tire vulcanizing mold apparatus using steam heat to raise the temperature of the mold cavity-defining members and platens. After curing the fluids are drained from the bladder members to reservoir means and the upper cavity member is pivoted away by hydraulic means to permit removal of the tire for cooling and post cure inflation. While rubber articles are described herein the invention is equally applicable to any moldable article of an inherently poor thermally conductive material including articles of any number of thermoplastic material.

BRIEF DESCRIPTION OF THE DRAWINGS Details of the invention will be readily understood after consideration of the following description of the preferred embodiment and reference to the accompanying drawings, wherein:

FIG. I is an isometric view of the embodiment of the invention; and

FIG. 2 is a partial cross-sectional view of the embodiment.

DESCRIPTION OF THE PREFERRED EMBODIMENT The apparatus 10 embodying the invention comprises upper and lower mold annular cavity-defining members 112 and 14 supported by legs 22. A lid 16 con trolled by a hydraulic mechanism 18 is provided with a connecting bracket 20 for pivotal movement thereof after the curing cycle has been completed. A shaft 24 disposed within a concentric tubular holder 26 is internally connected to the means for movement of the bladder members, to be hereinafter described, to provide for removal and insertion of such bladder members in the interior of the tire casing at the commencement and termination of the curing cycle. The shaft moves upwardly and is controlled by means of a gear box 28 having an eccentric sheave 3% coupled to a rod 32 with a lever arm assembly 34 pivotally secured to bracket 36 on the underside of the lower cavity member Ml. A motor is also provided and is not illustrated for the sake of clarity.

Referring now to lFIG. 2, upper and lower mold cavity-defining members 12 and I4 comprise top and bottom half sections 38 and 4b adapted to mate and define the shaping and tread vulcanizing walls which an annular moldable article, such as an uncured tire 50 having a substantially hollow interior, is disposed. A lip portion 42 and 44 provides mating surfaces for the joined mold members 12 and I4 during the curing cycle. Each of the half sections 38 and 40 have abutting top and bottom steam-heated platen members 46 and 48 secured thereto. Typically, in such apparatus, steam is continuously introduced into the platens to elevate the mold temperatures to approximately 310 to 350F which is the normal curing temperature for passenger tires.

Within the casing of the uncured or green tire 50 bladder members 52 and 62 are disposed. Bladder member 52 which is referred to herein as the outer bladder member conforms to the tire casing walls. The

anchoring channels in lower fixed clamping ring 58 and upper movable clamping ring 60. This arrangement provides a fluid-tight structure when a fluid is pumped within the bladder 52 during operation. A similar arrangement provides enlarged feet 64 and 66 for securing the inner bladder member 62 to the clamping rings 58 and 60. A piston rod member 68 is joined to the vertically displaced shaft 24 and is secured by a clamp 70 to the upper clamping ring 60. The rod extends within a hub 72 having cylindrical cap 74 joined by bolts 76 to the lower clamping ring member 58. Upward movement of the rod 68 results in the drained bladders as suming a shape which will permit ready removal and insertion of the tire casing.

Clamping ring member 58 defines inner passageways 78 at a number of points around the annulus of the tirecasing to permit the introduction of a fluid 79 within the outer bladder member 52. Line80 threadably engages the passageways and is connected by a check valve 82 and regulator valve 84 to a reservoir tank 86 containing fluid l. The fluids in the practice of the invention are desirably heated by any suitable source designated by the numeral 88 and all the electrical controls for the operation of the apparatus are designated by the box 90. Fluid 1 is of a high dielectric constant low thermal loss characteristic, such as silicone oil, and is utilized for spacing of the heat source, to be hereinafter described, with relation to the nonuniform walls of the tire being cured.

An electrically conductive fluid 92 is introduced within the inner bladder member 62 by passageways 94 which are electrically insulated from the clamping ring 58 by a nonconductive line 96 forming a conduit for the introduction of the fluid ll. Line 96 incorporating a check valve 98 and regulator valve 100 is coupled to tank 102 which is also connected to the controls 90. An illustrative fluid having the desired electrically conductive characteristics comprises mercury, salt water or woods metal. The latter material woods metal describes a low temperature alloy containing bismuth, antimony and tin of the type often employed in automatic sprinkler heads.

A suitable high frequency electromagnetic energy source 104 having an operating frequency of around 40 megahertz is controlled by a relay 106 having contacts 108 coupled to electrical controls 90. Coaxial electrode 110 is connected to a metallic sleeve 1112 surrounding the insulated line 96 which is connected to the ring 114 of the grounded tire molding apparatus. Center electrode 116 has inner end 118 disposed directly in the conductive fluid 92 to complete the circuit for the raising of the temperature of the conductive fluid to the temperature required to heat the inner casing walls. A diaphragm 120 is coaxially disposed as indicated to prevent backup of the electrically conductive fluid 92 to the high frequency source.

At the beginning of the curing cycle with the upper mold member 12 raised the uncured tire casing is placed in the cavity around the bladders members 52 and 62. Upon the closing of the apparatus and filling bladder 52 containing the low loss material having a high dielectric constant assumes the shape conforming to the inner casing walls. The inner bladder 62, however, is contoured so as to be closer to bladder 52 at the point adjacent to the thick tread of the tire casing 50. A greater volume of the heating conductive fluid 92 is thereby concentrated adjacent to the thicker tread region. The thinner sidewall portions are protected from excessive heating by the intervening fluid 79 to provide a more uniform heat distribution arrangement responsive to a nonsymmetrical article. After the curing, the lines with both fluids are drained and the upper mold member 12 is again raised and pivoted to permit removal of the treated product for cooling and postcure inflation.

Since numerous modifications in the preferred embodiment disclosed herein as well as alternative materials, such as those of the thermoplastic composition will become apparent to those skilled in the art, a broad interpretation of the invention as defined in the appended claims is intended.

I claim: a 1. In a method of heating a moldable annular article with nonuniform walls and substantially hollow interior characterized by a heating cycle wherein the exterior walls are heated to a predetermined temperature in a cavity mold; the steps of:

inserting within said interior an outer expandable fluid-tight bladder means conforming to the coutour and adapted to maintain pressure against, as well as dielectrically heat, the inner wall surfaces of the article and an inner bladder means disposed within said outer bladder means; filling said outer expandable bladder means with a fluid having a high dielectric constant low thermal loss characteristic and the inner bladder means with an electrically conductive fluid; and

connecting said electrically conductive fluid to a high frequency electromagnetic energy source having a range of from 1 to 60 megahertz,

2. The method according to claim 1, and the further step of thermally heating both of said fluids within said inner and outer expandable bladder means to a flowing temperature.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3892505 *Jun 4, 1974Jul 1, 1975Cebal GpMeans for heating a mold
US4544339 *Aug 31, 1984Oct 1, 1985Toyoda Gosei Co., Ltd.Apparatus for vulcanization of rubber by dielectric heating
US5186950 *Jul 3, 1991Feb 16, 1993Bridgestone/Firestone, Inc.Curing device
US5641365 *Feb 2, 1996Jun 24, 1997The Hyper CorporationPre-pressurized in-line skate wheel
US6085815 *Jul 10, 1997Jul 11, 2000The Hyper CorporationPre-pressurized polyurethane skate wheel
US6102091 *Jul 10, 1997Aug 15, 2000The Hyper CorporationHollow core pneumatic wheel having contour conforming polyurethane wall
US6773245 *Sep 27, 2001Aug 10, 2004Albert Edward Moore, Jr.Fluidic hot and cold pressure forming apparatus
US20030059490 *Sep 27, 2001Mar 27, 2003Moore Albert EdwardFluidic hot and cold pressure forming apparatus
U.S. Classification219/770, 219/780, 425/41, 219/777
International ClassificationB29C35/12, B29C43/10, B29D30/06, H05B6/80
Cooperative ClassificationB29L2030/00, H05B6/80, B29D30/0601, B29C43/104, B29C35/12
European ClassificationH05B6/80, B29D30/06B, B29C43/10B2, B29C35/12